KR200457311Y1 - The structure of lead in the power transformer - Google Patents

Abstract

The lead structure of the power transformer of the present invention is a transformer that receives electric power and converts it into an appropriate voltage or a required voltage of each device, wherein the lead is installed inside the transformer and leaks a lead that draws a winding current to the terminal of the enclosure. Characterized in that it is provided with a double tube so that the magnetic flux can be offset.

Transformer, lead, double pipe, leakage flux, offset

Description

Lead Structure of Power Transformer {TH STRUCTURE OF LEAD IN THE POWER TRANSFORMER}

1 is a bottom perspective view showing a lead structure of a power transformer according to an embodiment of the present invention.

Figure 2 is a plan view showing a lead structure of a power transformer according to an embodiment of the present invention.

Figure 3 is an internal configuration showing a transformer to which the lead structure of the power transformer of the present invention is applied.

Figure 4 is a plan view showing a transformer to which the lead structure of the power transformer of the present invention is applied.

Description of the Related Art

10: enclosure 20: enclosure terminal

30: connector 40: winding

41: winding lead 42: winding terminal

50: lead 51: outer pipe

52: inner pipe 53: outer connection member

54: inner connecting member 60: insulating member

The present invention relates to a lead structure of a power transformer, and more particularly, to prevent overheating of an adjacent enclosure or an internal structure by magnetic flux of a lead installed inside the transformer and drawing current from a winding to a terminal of the enclosure. The lead structure of the improved power transformer.

In general, a transformer converts a voltage applied to a primary into a required secondary voltage, and a home and an apparatus need a voltage supplied by a high voltage to transmit power transmitted from a power plant or a transmission station over a long distance. It is a device that lowers or raises the voltage to.

Such a transformer is provided with a winding consisting of a primary winding and a secondary winding for converting a primary voltage into a secondary voltage, and a lead for drawing out each winding from the winding to the enclosure terminal provided in the enclosure.

Here, busbars are applied to winding and winding ends where windings start to draw lead of a large current, thereby drawing each lead.

However, in the process of drawing the current of the winding to the terminal of the enclosure, the magnetic flux is generated in the lead by the large current, and there is a problem that the adjacent enclosure or the internal structure is overheated by the magnetic flux generated in the lead.

In addition, there is a problem in that the internal structure of the transformer is complicated by applying the lead to a bus bar or the like.

The present invention was created in view of the above necessity, the lead of the power transformer for preventing the overheating of the adjacent enclosure or the internal structure by improving the magnetic flux can be canceled the lead for drawing the current of the winding to the terminal of the enclosure Its purpose is to provide a structure.

It is also an object of the present invention to provide a lead structure of a power transformer that prevents the internal configuration from becoming complicated by applying a bus bar or the like.

The lead structure of the power transformer of the present invention for achieving the above object is a transformer for supplying power by converting into a proper voltage or a required voltage of each device, which is installed inside the transformer to the current of the winding The lead drawn out to the terminal is characterized in that it is provided with a double pipe so that the leakage magnetic flux can be canceled.

Here, the lead includes an inner pipe having a diameter different from that of the outer pipe provided at the outer side, and the outer pipe and the inner pipe are preferably arranged concentrically.

And between the outer pipe and the inner pipe, it is preferable that an insulating member for insulating and insulating the outer pipe and the inner pipe can be installed concentrically.

In addition, the lead is preferably provided with a connector to be connected to the enclosure terminal on the top.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the description of the present invention, terms defined are defined in consideration of functions in the present invention, it should not be understood as a meaning limiting the technical components of the present invention.

1 is a bottom perspective view showing a lead structure of a power transformer according to an embodiment of the present invention. 2 is a plan view showing a lead structure of a power transformer according to an embodiment of the present invention. In addition, Figure 3 is an internal configuration showing a transformer to which the lead structure of the power transformer of the present invention is applied, Figure 4 is a plan view showing a transformer to which the lead structure of the power transformer of the present invention is applied.

1 to 4, the lead 50 of the power transformer of the present invention is provided with a tube.

The lead 50 is provided as a double tube by combining pipes of different diameters, and is composed of an inner pipe 52 and an outer pipe 51. At this time, the inner pipe 52 and the outer pipe 51 of the lead 50 is made of copper, silver, aluminum and alloys thereof having high electrical conductivity.

The inner pipe 52 of the lead 50 is inserted into the outer pipe 51 so as to overlap the concentric circles, and the upper part of the inner pipe 52 and the outer pipe 51 of the lead 50 is an enclosure of a transformer. It is connected to the enclosure terminal 20 is provided in (10), the lower portion is connected to the winding 40 is provided inside the enclosure (10), respectively.

In other words, the upper portion of the lead 50 is provided with a connector 30 to be connected to the enclosure terminal 20 and connected to the enclosure terminal 20 through the connector 30, and the lower portion of the lead 50 is wound. The inner connecting member 54 and the outer connecting member 53 are provided to be connected to the 40 and are connected through the inner connecting member 54 and the outer connecting member 53.

In addition, the inner connecting member 54 and the outer connecting member 53 are connected through the winding lead 41 and the winding terminal 42 which are respectively provided at the winding section where the winding 40 starts and the winding section where the winding 40 ends. do.

Here, the connector 30 is composed of an inner connector 32 connected to the inner pipe 52 and an outer connector 31 connected to the outer pipe 51, and the inner connector 32 and the outer connector 31 are enclosures. Respectively connected to the terminal 20.

The winding lead 41 is composed of a first winding lead 41a and a second winding lead 41b respectively connected to winding and winding types, and the winding terminal 42 is connected to the first winding lead 41a. It consists of a 2nd winding terminal 42b connected to the 1st winding terminal 42a and the 2nd winding lead 41b.

In addition, the inner pipe 52 and the outer pipe 51 of the lead 50 overlap the concentric circles, but the insulating member 60 is provided so that the inner pipe 52 and the outer pipe 51 can be insulated from each other. In this case, the insulating member 60 may be made of an insulating material, and may be provided in a pipe shape so as to be fitted into a gap between the inner pipe 52 and the outer pipe 51.

In addition, the insulating member 60 may be provided in the form of a net so as to facilitate ventilation, and may be provided by forming an insulating layer filled with an insulating material.

Therefore, the inner pipe 52 and the outer pipe 51 are different current flows in the same size, the current flows in a different direction is canceled with each other. Therefore, no leakage magnetic flux is generated, thereby preventing overheating caused by the magnetic flux.

The technical idea of the lead structure of the power transformer of the present invention has been described above with the accompanying drawings, but this is only illustrative of the best embodiments of the present invention and is not intended to limit the present invention.

Therefore, it is obvious that anyone with ordinary skill in the art can make various modifications and imitations such as dimensions, shapes, structures, etc. without departing from the scope of the technical idea of the present invention.

As described above, the lead structure of the power transformer of the present invention including a lead formed of a double tube cancels the magnetic flux generated in the lead to prevent overheating of an adjacent enclosure or an internal structure, thereby improving stability.

In addition, it is effective to simplify the structure by preventing the internal configuration is complicated by being composed of a double pipe.

Claims (4)

In a transformer that receives power and converts it into the proper voltage or required voltage of each device, Installed in a double tube so that the leakage magnetic flux in the transformer enclosure can be canceled, the upper portion is connected to the terminal of the enclosure, the lower portion is connected to the winding and includes a lead for drawing the current of the winding to the terminal of the enclosure Lead structure of power transformer. The method of claim 1, The lead includes an outer pipe provided on the outside and an inner pipe having a diameter different from that of the outer pipe to form a double pipe, The outer pipe and the inner pipe, the lead structure of the power transformer, characterized in that installed so as to overlap concentric. 3. The method of claim 2, A lead structure of a power transformer, characterized in that an insulating member is installed between the outer pipe and the inner pipe so that the outer pipe and the inner pipe can be installed concentrically. The method of claim 3, The lead is a lead structure of the power transformer, characterized in that the connector is provided to be connected to the enclosure terminal on the top.

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