KR20000000522A - Transformer for neon tube - Google Patents

Abstract

PURPOSE: A transformer for a neon tube reduces a volume and weight of the first and second coils, and enhances an output characteristic of the transformer due to an increasing magnetic flux density. CONSTITUTION: A transformer forms a core body(10) by interconnecting a lower core(11) of U-shape and upper core(12) of inverted U-shape, winds a coil in vicinity of one side of the core body as a square-shape, winds a primary coil(20) and the coil as a square-shape, amplifies an input voltage of the primary coil, and sequentially deposits a secondary coil(30) having two coil bodies. A leakage core(40) having a plurality of steel pieces of T-shape are deposited in a space between the primary coil and secondary coil. Thereby, the transformer for a neon tube reduces a volume and weight of the first and second coils, and enhances an output characteristic of the transformer due to an increasing magnetic flux density.

Description

Neon tube transformer

The present invention relates to a neon tube transformer, and in particular, the weight and volume of the core body and the primary and secondary coils can be significantly reduced, and the neon to improve the output characteristics of the transformer by increasing the magnetic flux density of the core body It relates to a conventional transformer.

In general, the neon tube transformer refers to a high voltage generating transformer that turns on the neon tube commonly used for commercial purposes in commercial and industrial areas.

The neon transformer refers to a high voltage generating transformer having a rated output voltage of 15000V or less and a rated output current of 20mA at a rated input voltage of 110V or 220V.

1 shows a conventional neon tube transformer,

' 'With the iron bars' 'A plurality of magnetic iron pieces are stacked to form one core body 1, and a primary coil 2 and a secondary coil 3 having a coil in a circular shape are inserted in the middle pillar portion of the core body 1. However, between the primary coil 2 and the secondary coil 3, two leak cores 4 having a plurality of rectangular iron pieces stacked therein are inserted into both spaces of the core body 1 to insert the leak cores 4. The output current of the secondary coil 3 is controlled by the leakage magnetic flux generated in

The primary coil 2 is configured with an input line for applying an external input voltage, and the secondary coil 3 is configured with an output line for outputting a high voltage amplified output voltage.

And. A separate insulator 5 is inserted between the core body 1 and the secondary coil 3 to insulate the iron pieces and the coils from each other.

In the conventional neon tube transformer configured as described above, a voltage of 110 V or 220 V input to the primary coil 2 passes through the secondary coil 3, and at a high voltage of about 15000 V due to the electric field of the coil and the magnetic flux of the core body 1. Amplified and output through the output line of the secondary coil (3).

However, the core body applied to the conventional neon tube transformer is a number of ' 'With the iron bars' 'Because the magnetic iron pieces are stacked, the volume of the core body increases, while the magnetic flux density per unit area of the core body decreases, so that the volume of the core body increases to obtain a high output. The secondary and secondary coils have a problem in that the coils are wound in a circular shape so that the length of the wound coil is unnecessarily increased to increase the coil's own resistance.

In the conventional neon tube transformer, two leaky cores in which a plurality of rectangular iron pieces are stacked between a primary coil and a secondary coil are inserted, which also causes an increase in the amount of use of the iron pieces.

Therefore, the present invention for solving the above problems is' By winding the core in the shape and cutting the middle part With the lower core 'By combining the upper cores of each other to form a core body, by laminating the primary coil for the external power input and the secondary coil for voltage amplification in a rectangular shape on one pillar of the core body It is an object of the present invention to provide a neon tube transformer that can significantly reduce the weight and volume of the core body and the primary and secondary coils, and improve the output characteristics of the transformer due to the increase in the magnetic flux density of the core body.

Features of the present invention for achieving the above object,

' With the lower core 'Coupling the upper core of the shape to form a core body, the coil is wound in a rectangular shape on one side pillar portion of the core body, the primary coil and coil having an external input line is wound in a square, the primary coil Secondary coils consisting of two coils for amplifying the high voltage of the input voltage are sequentially stacked,

The core space portion between the primary coil and the secondary coil ' It is characterized by consisting of a leakage core is made by stacking a plurality of iron-shaped pieces.

In addition, the upper and lower core is' 'Wound the core to a certain thickness and heat-treated, and cut the middle part of the heat-treated iron core' With the lower core It is characterized in that the upper core of the shape is made.

1 is a perspective view showing a conventional transformer.

Figure 2 is an exploded perspective view showing a transformer of the present invention.

Figure 3 is a perspective view of a transformer of the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

Explanation of symbols on the main parts of the drawings

10: core body, 11: lower core,

12: upper core, 20: primary coil,

21: input line, 22, 32: bobbin,

30: secondary coil, 31: output line,

40: leakage core,

Hereinafter, an embodiment of the present invention for achieving the above object will be described in detail with reference to FIGS. 2 to 4 as follows.

According to the drawings, the present invention is roughly composed of a core body 10, a primary coil 20, a secondary coil 30, and a leaky core 40.

The core body 10 is' 'Shaped lower core (11) and' 'Consisting of the upper core 12 of the shape, the lower core 11 and the upper core 12 is referred to the iron core of a certain length' 'After making it look like' 'Heat-treated iron core to have its own rigidity.

And, ' 'By cutting the middle of the core in the horizontal direction, 'Shaped lower core (11) and' 'Shaped upper core 12 is provided.

When the upper and lower cores are made by winding the iron core as described above, the wound core and the iron core are in close contact with each other so that the magnetic flux density per unit area of the core is remarkably improved. Even if thinner than the core body, the same effect can be obtained.

On the other hand, the primary coil 20 and the secondary coil 30 is configured to winding the coil to the square bobbin 22, 32 a predetermined number of times so that the overall shape becomes a square, and the primary coil 20 and The secondary coil 30 is fastened by inserting the primary coil 20 on one side of the pillar of the core body 10 and inserting the secondary coil 30 above the primary coil 20 and the secondary. The coil 30 is configured to be stacked.

As described above, when the primary coil 20 and the secondary coil 30 are formed in a square shape, the winding length of the coil is remarkably increased as compared with the conventional coil body formed in a circular shape as shown in the comparison of Table 2. Not only can it be reduced, but as the length of the coil is reduced, the coil's self-resistance and heat generated from the coil under load can be expected to be significantly reduced.

The primary coil 20 is provided with a hysteresis line 21 for applying an external input voltage, and the secondary coil 30 has an output line 31 for outputting an amplified output voltage with a high voltage. do.

The leakage core 40 is to adjust the output current of the secondary coil 30, ' It is formed by stacking the iron pieces so as to have a constant thickness, and the leak core 40 is inserted into the space of the core body 10 between the primary coil 20 and the secondary coil 30 to leak the core 40. Leakage flux generated in the) to affect the secondary coil (30).

like this ' 'If the leakage core 40 is formed by stacking the iron pieces, the amount of magnetic flux is increased, and thus the total size of the transformer may be reduced since the leakage magnetic flux may be increased. In addition, there is an advantage that can also reduce the amount of iron pieces consumed in the leak core (40).

Table 3 compares the characteristics of the transformer of the present invention manufactured as described above with a conventional transformer, and according to Table 3, most of the rated capacity, rated current, power consumption, no-load loss, weight, etc. of the transformer of the present invention. It can be seen that the characteristic of is much improved than the conventional transformer.

The non-described reference numeral 50 is an insulator applied to insulate the core body 10 and the secondary coil 30 from each other.

Referring to the operation of the transformer of the present invention configured as described above,

First, when a voltage of 110V or 220V is applied to the input line 21 of the primary coil 20, the input voltage input to the input line 21 is transferred to the secondary coil 30 through the primary coil 20. While being supplied, the magnetic flux of the core body 10 and the electric field of the secondary coil 30 intersect while passing through the secondary coil 30, and the voltage passing through the coil is amplified and output through the output line 31. will be.

As described above, the present invention is' By winding the core in the shape and cutting the middle part 'Shaped bottom core' 'Combining the upper cores of each other to form a core body, and by laminating the primary coil for external power input and the secondary coil for voltage amplification in a square shape on one pillar of the core body in order It is a neon tube transformer that can significantly reduce the weight and volume of the core body and the primary and secondary coils, and improve the output characteristics of the transformer by increasing the magnetic flux density of the core body.

Claims (2)

' With the lower core 'Coupling the upper core of the shape to form a core body, the coil is wound in a rectangular shape on one side pillar portion of the core body, the primary coil and coil having an external input line is wound in a square, the primary coil Secondary coils consisting of two coils for amplifying the high voltage of the input voltage are sequentially stacked, The core space portion between the primary coil and the secondary coil ' 'Neon tube transformer, characterized in that formed by inserting a leakage core made of a plurality of stacked iron pieces. The method of claim 1, wherein the upper and lower core is' 'Wound the core to a certain thickness and heat-treated, and cut the middle part of the heat-treated iron core' With the lower core Neon tube transformer, characterized in that the upper core of the shape.