KR200471248Y1 - Current Transformer - Google Patents

Abstract

The present invention is an instrument current transformer for converting a high current electricity into a low current electricity for use in instrumentation by applying to a switchgear of a relay, and relates to an instrument current transformer having a structure that can be easily mounted on a distribution cable. . Instrument current transformer 1 of the present invention, the housing 10 of the insulating material hollow inside; A through passage 20 formed to penetrate the housing 10 so that the distribution cable 3A or the bus bar 3B for high current flow therethrough; A core 30 wound around a coil 31 mounted around the through passage 20 in the housing 10; And a drawing terminal 40 which is electrically connected to the coil 31 and is installed outside the housing 10 to draw out current of the low current that has flowed to the outside. An instrument current transformer comprising a slot (50) formed around the passage (20) of the outer surface of the housing (10); When the distribution cable 3A is inserted into the through-path 20, the housing 3 is connected to the distribution cable 3A by being inserted into the slot 50 to wrap and tighten the distribution cable 3A. 10) a cable tie 60 for fixing; .

Description

{Current Transformer}

The present invention relates to a current transformer for the instrument, and more particularly, it is an instrument current transformer for converting a high current electricity into a low current electricity for use in an instrument by applying to an electrical switchgear, and the like. The present invention relates to an instrument current transformer having a structure that can be used.

For example, a switchgear for alternating current electricity is provided with a circuit breaker that cuts off mains supply of current from an external power supply cable, and downstream of such a breaker is a distribution cable or busbar for distribution Copper rods) are connected.

In such distribution cables or busbars for distribution, it is common to connect instruments such as ammeters to measure the current against flowing electricity.

Since electricity flowing through distribution cables or busbars for distribution has high rated current values (eg, 100 A, 200 A, 500 A, 1000 A), it is not suitable to measure these high currents directly. Current is measured over a wide range from low current to current value (eg 5A). Electrical equipment that converts high current electricity such as distribution cables into low current electricity to use as a power source for instruments. Is called the instrument current transformer.

In the instrument current transformer described above, the core in which the coil is wound at a rotational speed suitable for a desired flow rate ratio is provided around the distribution cable, thereby inducing electromagnetic induction in the coil by the high current electricity through the distribution cable or the like. The low current of electricity through the coil to generate a low current of electricity from the coil to supply a meter such as an ammeter.

Conventional technologies related to current transformers for instruments include "Registered three-phase current transformers for combination of circuit breakers" of Korean Registered Utility Model No. 20-0389367 (registered on July 1, 2005), and Korea Registered Utility Model No. 20 proposed by the present inventors. -"Current transformers for instruments" of -0452103 (registered Jan. 25, 2011).

However, in the current instrument current transformer is installed in a switchgear, etc., it is installed by fastening the screws to each of the four brackets (brackets) integrally formed on the bottom side of the housing (casing) to be fixed to the plate such as the distribution box below. As such, there is a problem in that fixing and separating are very inconvenient depending on the installation environment.

Particularly, in an environment where a conventional instrument current transformer is to be installed in a distribution cable, the instrument current transformer must be firmly fixed without flow in a state where the distribution cable passes through the core of the instrument current transformer. In the case of the distribution cable, the actual construction site has a considerable difficulty in fixing the instrument current transformer due to the space constraints such as the circuit breaker is installed in the instrument current transformer and the rigidity of the distribution cable.

The present inventors proposed a design that can more conveniently install and separate the current transformer for instrumentation in an environment in which a busbar for power distribution is applied to breakers, etc., as Korean Utility Model Application No. 20-2012-0010866 (filed on Nov. 26, 2012). have. However, the '866's design is useful when applied to busbars for distribution, but it is not suitable when applied to distribution cables.

The object of the present invention is to install a circuit breaker in a switchgear and the like for a current transformer for converting a high current electricity flowing through a distribution cable or a bus bar for distribution into low current electricity. In addition to being very simple, it is intended to provide a structure of the current transformer for the instrument, which can be conveniently applied to busbars for distribution.

According to the present invention, a current transformer for converting high-current electricity into low-current electricity is provided.

Instrument current transformer according to the present invention, the housing of the hollow insulating material; A through passage formed through the housing such that a distribution cable or a bus bar for distribution of electricity having high current flow therethrough; A core wound with a coil mounted around the passage in the housing; And a drawing terminal electrically connected to the coil and installed outside the housing to draw out current of a low current flowed to the outside. .

According to a feature of the present invention, the instrument current transformer of the present invention, the slot formed in the periphery of the passage of the outer surface of the housing; And a cable tie for fixing the housing to the distribution cable by inserting the slot into the slot and wrapping the cable for the distribution cable when the distribution cable is inserted into the passage.

Preferably, the instrument current transformer of the present invention, a piece hole formed so as to penetrate into the through passage in a position not to interfere with the core from the upper surface of the housing; A nut inserted into the piece hole so as not to rotate and move up and down; And a screw inserted into the piece hole and screwed to the nut, and when tightened, presses and fixes the bus bar for power distribution passing through the through passage to the housing, the head being buried in the piece hole. .

Preferably, the housing is formed with a bracket for fastening the piece between the lower plate and the lower plate.

According to the instrument current transformer of the present invention, the cable tie is inserted into the slot formed on the outer surface of the housing while the cable for power distribution is inserted into the through passage of the housing to wind the cable tie that is wound around the bed for cables. By pulling and tightening, the housing can be firmly fixed to the cable for distribution, and as a result, the current transformer of the present invention can be fixed very easily to the cable for distribution.

In addition, the instrument current transformer of the present invention can be firmly fixed to the busbar for power distribution by tightening only the fixing screw in the case where the power distribution busbar is used instead of the cable for power distribution, such as a circuit breaker. In addition, the fixing screw electrically connected to the bus bar for distribution is buried in the housing, and when the protective cap is attached to the piece hole, the contact with the fixing screw is essentially blocked, thereby preventing electric shock through the fixing screw. There is an effect that can prevent the danger.

1 is a perspective view of a circuit breaker equipped with an exemplary instrument current transformer according to the present invention;
Figure 2 is a perspective view of an exemplary instrument current transformer according to the present invention,
3 is a partially cutaway perspective view of an exemplary instrument current transformer according to the present invention;
Figure 4 is a perspective view of the use state of an exemplary instrument current transformer according to the present invention,
5 is a perspective view of a circuit breaker equipped with an exemplary instrument current transformer according to the present invention;
6 is an exploded perspective view of a state of use of an exemplary instrument current transformer according to the present invention;
Figure 7 is a cross-sectional view of the use state of an exemplary instrument current transformer according to the present invention.

Hereinafter, a current transformer according to the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in Fig. 1 and Fig. 5, the current transformer 1 for the instrument according to the present invention is installed in the distribution cable 3A or the distribution busbar 3B of the circuit breaker 2, and the distribution cable and the like. An electric device for single-phase electric current that flows high-current electricity flowing into low-current electricity, and the circuit breaker 2 is a device for controlling the power of the external power cable 4.

1 to 7, the instrument current transformer 1 of the present invention, like the conventional instrument current transformer, has a housing 10, a through passage 20, a core 30, and a drawing terminal 40. ) Is included by default.

The housing 10 is a hollow casing member that forms the skeleton of the instrument current transformer 1 according to the present invention, and is molded from an insulating material such as plastic synthetic resin.

The housing 10 may be formed in a structure having a lid 11 so as to facilitate injection molding and mounting of the core 30 in the inner space.

The through passage 20 is a passage through which a high current distribution cable 3A (see FIGS. 1 and 4) or a bus bar 3B (see FIGS. 5 to 7) electrically connected to the circuit breaker 2 passes. , As shown, it is formed through the housing 10 in the longitudinal direction in which the distribution cable or the like extends. Since the instrument current transformer 1 of the present invention is intended for use in single-phase electricity, one through passage 20 is formed at approximately the center of the housing 10.

The core 30 is installed in the housing 10, and is mounted around the through passage 20 and the coil 31 is wound.

Accordingly, when the power distribution cable 3A or the like is inserted into the through passage 20 of the housing 10, the coil 31 of the core 30 is positioned around the power distribution cable 3A or the like. When electricity of high current (eg 200A) flows in the cable 3A or the like, electricity flowed from the coil 31 to low current (eg 5A) flows due to electromagnetic induction.

The drawing terminal 40 is a terminal electrically connected to the coil 31 and installed outside the housing 10, and is a terminal for drawing out the current of the low current that flows to the outside. Instruments such as ammeters are electrically connected.

As a result, the high current electricity from the external power cable 4 is converted into low current electricity by the instrument current transformer 1 of the present invention in the course of flowing the distribution cable 3A downstream of the breaker 2. The low current electricity is drawn out through the drawing terminal 40 and used.

In the instrument current transformer 1 described above, since the relatively narrow distribution cable 3A or the like is easily inserted in the relatively wide through passage 20, the housing 10 can flow without being fixed. In the conventional case, the housing was fixed to the plate by fastening a screw over the plate (bracket) formed integrally with the housing (casing) and the plate below.

According to a feature of the present invention, the instrument current transformer 1 of the present invention includes a slot 50 and a cable tie 60.

2 to 4, the slot 50 is formed on one side or both sides of the outer surface of the housing 10 in the periphery of the through passage 20, the slot 50 is the cable tie ( To sew 60). In the illustrated embodiment, each of the protrusions 51 are formed on the outer circumference of the through passage 20 on both sides of the housing 10, and the slots 50 are sized to allow the cable tie 60 to be inserted into the protrusions 51. This is an example. Of course, the slot 50 may be formed only on one side of the housing.

The cable tie 60 is a binding band commonly used to bundle wires and the like, and is applied when the current transformer 1 of the present invention is installed on the cable 3A for distribution. That is, as shown in FIGS. 1 and 4, when the distribution cable 3A is inserted into the through passage 20, the distribution cable 3A is inserted into the cable tie 60 inserted into the slot 50. The housing 10 is firmly fixed to the cable 3A for power distribution by tightening it in a wrapped state.

Thus, according to the instrument current transformer 1 of the present invention including the slot 50 and the cable tie 60, the rigid distribution cable 3A in the through passage 20 in a state of not forcibly bending or moving largely. After the distribution cable 3A is inserted, and the housing 10 is moved along the distribution cable 3A to reach an appropriate position, the distribution cable (60) is sewn into the cable tie 60 sewn into the slot 50. By winding 3A), the current transformer for instrument of the present invention can be fixed to the cable 3A for distribution very easily.

Preferably, the instrument current transformer 1 of the present invention, as shown in Figure 5, can also be applied to the distribution busbar 3B, not the distribution cable 3A, for this purpose for the instrument of the present invention The current transformer 1 further includes a piece hole 70, a nut 80, and a set screw 90, as shown in FIGS. 6 and 7.

The piece hole 70 is a hole penetrating through the passageway 20 at a position not interfering with the core 30 from the upper surface of the housing 10, and the nut 80 and the fixing screw 90 described later. Is inserted. In the illustrated embodiment, the piece hole 70 is formed on the upper surface of the housing 10 and the upper surface of the through passage 20 directly below it.

The nut 80 (or washer) is inserted into the housing 10 in the piece hole 70 so as not to rotate and move up and down, and is screwed to the fixing screw 90 to be described later. In the illustrated embodiment, the nut 80 is inserted into the mounting hole 12 formed around the piece hole 70 so as not to rotate and move up and down, but is not limited thereto. In the illustrated embodiment, the mounting holes 12 are formed on the lid 11 to facilitate injection molding of the housing 10 including the lid 11, and the fixing screw 90 is attached to the lid 11. The reinforcing rib 14 may be formed along the traveling path of the mounting hole 12 and the fixing screw 90 as a reinforcing structure for the force applied by tightening of.

The fixing screw 90 is inserted into the piece hole 70 and screwed to the nut 80. When the fixing screw 90 is tightened by using a tool such as a screwdriver, a bus bar for power distribution through which the lower end 91 passes through the through passage 20 is deepened while the screwing depth with the fixed nut 80 is deepened. 3B is pressed from the top to the housing 10, and as a result, the instrument current transformer 1 of the present invention is fixed to the busbar 3B for power distribution.

Therefore, loosen the set screw 90 and insert the busbar 3B for power distribution into the passageway 20, and move the housing 10 up and down along the busbar 3B for power distribution to fix it in the proper position. When the screw 90 is tightened, the instrument current transformer 1 of the present invention can be easily and firmly fixed to an appropriate position of the busbar 3B for power distribution.

The head 92 of the fixing screw 90 is buried in the piece hole 70 while the fixing screw 90 is in contact with the busbar 3B for power distribution, thereby causing electric shock by physical contact with the exposed fixing screw 90. Can be prevented.

In addition, when the lower end 91 of the fixing screw 90 has a flat shape, when the fixing screw 90 is tightened, the lower end 91 of the fixing screw 90 in contact with the busbar 3B for power distribution is centered. It can move along the circular trajectory without being caught, and in this case, the fixing action of the fixing screw 90 is reduced, which may cause breakage of the piece hole 70 or deviation of the position of the nut 80. To this end, the lower end 91 of the fixing screw 90 is preferably formed in the shape of a pointed needle.

When the lower end 91 of the fixing screw 90 is formed in a needle shape, when the fixing screw 90 is tightened, the lower end 91 of the fixing screw 90 in contact with the busbar 3B for power distribution is centered and one point. Only rotates to prevent the above-mentioned problems.

In addition, the current transformer for the instrument of the present invention may further include a protective cap 100 that is detachably coupled to the piece hole 70 to block the exposure of the head 92 of the fixing screw 90, and the fixing screw ( Tighten 90) to fix the current transformer (1) of the present invention to the bus bar (3B) for power distribution, then combine the protective cap 100 in the piece hole 70, blocking access to the fixing screw (90) at the source Thus, an electric shock accident due to the exposure of the fixing screw 90 can be further prevented.

The present invention only by fixing to the cable 3A for distribution using the slot 50 and the cable tie 60, or to the bus bar 3B for distribution using the nut 80 and the fixing screw 90. Although the instrument current transformer 1 of the present invention can be firmly fixed to the distribution cable 3A or the busbar 3B, the current transformer 1 of the present invention is further secured more firmly depending on the use environment. Or, it may be more convenient to just fix it to the bottom plate, for this purpose the lower side of the housing 10 is a bracket for fastening pieces (eg screws) between the plate and the plate under the housing 10. (13) can be formed.

As a result, the instrument current transformer 1 of the present invention, which includes the slot 50, the cable tie 60, the piece hole 70, the nut 80, the set screw 90, and the bracket 13, It can be fixed easily regardless of whether the distribution cable (3A) or the distribution busbar (3B) is used in the switchgear, and if necessary, it can be fixed to the (floor) plate of a structure such as a distribution box. It can be conveniently applied to the environment.

When the instrument current transformer 1 of the present invention is applied to the busbar 3B for power distribution, as shown in Figs. 5 to 7, it is not necessary to use the cable tie 60, and to the slot 50 If the cable tie 60 is inserted, it can be removed. When fixing the instrument current transformer 1 of the present invention using the bracket 13, it is possible to remove the cable tie (60).

1: current transformer 2: breaker
3A: Distribution Cable 3B: Distribution Busbar
10: housing 11: lid of housing
12: Mounting Hole 13: Bracket
20: through passage 30: core
31: coil 40: drawing terminal
50: slot 51: protrusion
60: cable tie 70: peace ball
80: nut 90: set screw
91: Lower head of fixing screw 92: Head of fixing screw

Claims (3)

A housing 10 of an insulating material having a hollow inside;
A through passage 20 formed to penetrate the housing 10 so that the distribution cable 3A or the bus bar 3B for high current flow therethrough; A core 30 wound around a coil 31 mounted around the through passage 20 in the housing 10; And a drawing terminal 40 which is electrically connected to the coil 31 and is installed outside the housing 10 to draw out current of the low current that has flowed to the outside. In the current transformer for the instrument comprising a,
A slot (50) formed around the through passage (20) of the outer surface of the housing (10); And when the distribution cable 3A is inserted into the through passage 20, the housing 3 is connected to the distribution cable 3A by being inserted into the slot 50 to wrap and tighten the distribution cable 3A. 10) a cable tie 60 for fixing; And a current transformer connected to the current transformer. The method of claim 1,
A piece hole 70 formed to penetrate into the through passage 20 at a position not interfering with the core 30 from an upper surface of the housing 10;
A nut (80) inserted into the piece hole (70) so as not to rotate and move up and down; And
Inserted into the piece hole 70 and screwed to the nut 80, when tightened, the bus bar 3B for power distribution in which the lower end 91 passes through the passageway 20 to the housing 10. Fixed by pressing, the head 92 of which is buried in the piece hole 70; Instrument current transformer further comprising a. 3. The method according to claim 1 or 2,
Instrument housing, characterized in that the housing (10) is formed with a bracket (13) for fastening the piece between the lower plate.

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