KR200218687Y1 - Shielding device for split bobbin type transformer - Google Patents

Abstract

The shape of the coating wire ring which prevents the blocking of the leakage magnetic flux generated by the split bobbin type transformer is one time or the general coating wire 14 is ring-shaped through the space between the blade pieces 12a of the bobbin 12 of the transformer. It is configured to wrap more.

Description

Shielding device for split bobbin type transformer

The present invention relates to a shielding device (also referred to as a short ring) of a split bobbin transformer, and more particularly, to solve the leakage of the magnetic flux generated by the transformer by covering the ring.

In general, in a transformer, leakage magnetic flux occurs outside the transformer during operation, and as it forms a magnetic field outside the transformer, it affects an audio signal or a video signal, causing a malfunction of a device using a transformer, or in the case of a television or a monitor. This caused the screen to blur or generate noise.

Therefore, in order to absorb such leakage flux, conventionally, a shield band (or short ring, also referred to as a short ring; made of a shield band) having a copper material is provided outside of the transformer so that these bands By absorbing the leakage flux and reducing it to thermal energy, the effect on the equipment was eliminated.

However, in the split bobbin for transformer automatic winding, since the wire is connected in the middle and the middle of the body, it is difficult to maintain the insulation gap between the shield plate and the wire, so that the split type bobbin capable of automatic winding has been limited. .

Therefore, in the above case, if you want to use the shield band, as shown in Figure 1, by putting a separate plastic cap (3) to the outside of the transformer 2 is wound a plurality of coils (1), the plastic cap ( The shield band 4 was wound outside of 3) to reduce the leakage flux generated by the transformer.

However, such a conventional structure has a need to use a separate plastic cap, a fine film or a low smoke tape, which leads to an increase in the manufacturing cost, and a large size of the overall transformer, resulting in an increase in the thickness of the device. Went crazy.

In addition, a separate shield band has to be wound around the plastic cap, which not only adds a process but also does not facilitate workability, thus acting as a cause that affects the automation of the entire process.

In addition to the problem of cost as described above, the shield band is too far from the body of the winding, the effect of the shield band is reduced, it has also been a problem of winding the shield band unnecessarily much to solve it.

The present invention was conceived to improve such a disadvantage, and it is a simple structure without covering a separate plastic cap on the split bobbin type transformer and winding the shield band of copper plate material, and the general covering wire ring directly to the transformer bobbin. By winding it, the insulation problem is solved and the leakage flux from the transformer is reduced.

1 is a schematic diagram of a conventional split bobbin type transformer

2 is a side view of a split bobbin type transformer of the present invention

3 is a plan view of FIG.

<Description of Main Parts of Drawing>

11: coil 12: bobbin 13: pin

14: covering line

The present invention will be described in more detail with reference to the accompanying drawings as examples.

Figure 2 is a side view showing the structure of the split bobbin-type transformer to which the present invention is applied, the basic structure of a general split bobbin type transformer is the same as the conventional structure shown in FIG.

That is, after a plurality of coils 11 are wound by a predetermined amount between each blade piece 12a of the bobbin 12 made of plastic, the end of each coil is located at the bottom of the bobbin 12 pin 13 The connection is made with them.

In the state in which the coil 11 is wound, the bobbin (12) is cut to a predetermined length by cutting the general sheath 14, which is already made of copper wire, without covering a separate cap or winding a shield band made of copper. It is wound in a ring shape to the outside of the coil 11 wound through the blade pieces (12a) of the).

In this state, the ends of the covering line 14 are bonded to each other and joined together as shown in FIG. 3 by means such as soldering.

At this time, as shown in Figure 2, the lead wires of the coil that is connected to the pin 13 may be located inside or outside the coating line 14, in the present embodiment, the coil for insulation or workability After the sheath line 14 was wound inside the lead wire of, the lead wire of the coil and the pin 13 were connected.

In this way, the insulation effect is achieved by the covering structure by the covering wire itself, and because the covering wire is made of several copper wires, the skin effect is excellent, thereby effectively reducing the leakage flux generated in the transformer.

Therefore, there is no need to use a plastic cap for a separate insulation as in the prior art, and the above functions of insulation and leakage reduction can be eliminated through a single sheath without having to wrap a copper shield shield band with a plastic cap. It became possible.

The sheath wound on the transformer can be properly wound one or more times depending on the performance effect.

As described above, the coated copper wire is wound around the split bobbin-type transformer to reduce the leakage flux generated from the transformer, thus eliminating a separate plastic cap and reducing the process to reduce costs and improve work fairness. This has the effect of improving performance.

In addition, by reducing the overall size of the transformer, it is possible to thin the device using the same, and at the same time has the effect of allowing the automation of the process.

Claims (1)

In the transformer of split bobbin type, A shielding device for a split bobbin type transformer, characterized in that the common sheath line (14) is wound one or more times in a ring shape through the space between the wing pieces (12a) of the bobbin (12) of the transformer.