KR100760853B1 - Transformer for inverter - Google Patents

Abstract

A transformer for an inverter is provided to have no limitation on the number of windings by separately forming a first bobbin and a second bobbin and increasing the first bobbin in proportion to the output of the second bobbin. A transformer for an inverter includes a first bobbin(100), a second bobbin(200) and a core(300). The first bobbin(100) converts DC voltage of the inverter to AC voltage, is applied with the AC voltage, and forms a plurality of input terminals. The second bobbin(200) is separated from the first bobbin(10), and forms a plurality of output terminals which correspond to the input terminals of the first bobbin(100). The core(300) is coupled with the first bobbin(100) and the second bobbin(200), guides a magnetic flux, and has a shape of U. The second bobbin(200) corresponds to the number of loads by adding only windings of the second bobbin(200) according as the number of loads increases. The first bobbin(100) increases in proportion to the output of the second bobbin(200) to prevent the limitation of the number of windings.

Description

Transformers for Inverters

1 is a diagram of a conventional inverter transformer

2 is a view of a primary bobbin of an inverter transformer according to the present invention.

3 is a view of a secondary bobbin of an inverter transformer according to the present invention.

4 is a coupling diagram of a primary bobbin and a secondary bobbin of the inverter transformer according to the present invention.

5 is a diagram of a core of an inverter transformer according to the present invention.

6 is a view of an inverter transformer according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

100: 1st bobbin 110: input terminal

200: secondary bobbin 210: output terminal

300: core

The present invention relates to a transformer for an inverter, comprising: a primary bobbin which converts a DC voltage of the inverter into an alternating voltage to form an input terminal by receiving the alternating voltage, and separated from the primary bobbin for the primary bobbin; A transformer for inverters comprising a secondary bobbin forming an input terminal and an output terminal corresponding to the input terminal, and a core having a 'c' structure formed at one side and the other side where the primary bobbin and the secondary bobbin are coupled to guide the magnetic flux. It is about.

In general, an inverter refers to a converter that converts a DC power source into an AC power source or a low frequency power source into a high frequency AC source. Inverter, which is called LCD Backlight, is a circuit for discharging CCFL or EEFL, which is a light source, and should be small and capable of generating high voltage. In other words, the commercial power is converted to a DC power source and then converted back to a high frequency AC power source. In order to drive the CCFL or EEFL used in the backlight of an LCD notebook or LCD monitor at low power, the inverter must be driven stably at a high frequency of 20KHZ to 100KHZ. These inverters supply the necessary high voltage to turn on the lamp in the early stage of lighting due to the characteristics of the CCFL, and maintain the constant brightness by controlling the current after the lamp is turned on.

The transformer configured in the above inverter plays an important role in driving the CCFL through the power transfer and at the same time, converting the DC voltage received from the resonant circuit into an AC AC voltage. The transformer is a device that changes the value of AC voltage or current by using electromagnetic induction, and there are many types of transformers for power connected to transmission and distribution lines and coupling transformers used in electronic circuits. A power transformer can change any voltage applied to an alternating current circuit to a higher or lower voltage as a transformer and the power does not change.

As shown in FIG. 1, the conventional transformer forms an input terminal 11 at the lower end of the bobbin 10 and an output terminal 12 at the upper end of the bobbin 10, and 'E' at the bobbin 10. Combination of the core 13 of the form at one side and the other side of the bobbin 10 is limited to the output terminal 12 formed on the top of the bobbin 10, the number of transformers increases as the number of loads increase the manufacturing cost There was a problem.

The present invention has been made to solve the above problems, the primary bobbin and the secondary bobbin is configured in a separate form, respectively, the primary bobbin and the secondary bobbin has a plurality of input terminals and output terminals load quantity As this increases, only the winding is added to the secondary bobbin, and the core for guiding the magnetic flux by combining with the primary bobbin and the secondary bobbin has a 'c' shape to reduce the manufacturing cost of the transformer for inverters The purpose is to provide a transformer for inverters.

The present invention is a transformer for inverters,

A primary bobbin which converts a DC voltage of the inverter into an AC voltage and receives an AC voltage to form an input terminal;

A secondary bobbin forming an input terminal and an output terminal corresponding to the primary bobbin in a form separated from the primary bobbin;

And a core configured to couple the primary bobbin and the secondary bobbin to guide the magnetic flux.

In addition, the primary bobbin and the secondary bobbin are characterized in that each has a plurality of input terminals and output terminals.

Even though the secondary bobbin has the same number of outputs, the primary bobbin increases in proportion to the secondary bobbin output, so that the number of turns is not limited by the turns ratio.

In addition, the secondary bobbin is configured to correspond to the number of loads by adding only the winding of the secondary bobbin as the number of loads increases.

The core has a structure of the '' form is characterized in that the primary bobbin and the secondary bobbin is formed on one side and the other side combined.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

Figure 2 is a view of the primary bobbin of the inverter transformer according to the present invention, Figure 3 is a view of the secondary bobbin of the inverter transformer according to the present invention, Figure 4 is a primary bobbin and secondary of the inverter transformer according to the present invention Combination drawing of bobbin.

As shown in FIGS. 2 to 4, the primary bobbin 100 and the secondary bobbin 200 are formed in separate forms, respectively, and a plurality of inputs are input to the primary bobbin 100 and the secondary bobbin 200. Even though the secondary bobbin 200 has the same number of outputs by forming the terminal 110 and the output terminal 210, since the primary bobbin 100 increases in proportion to the output of the secondary bobbin 200, It is not limited by the number of windings, and even if the secondary bobbin 200 produces a plurality of outputs, the input circuit configuration of the primary bobbin 100 can be simplified to reduce costs.

5 is a view of a core of an inverter transformer according to the present invention.

As shown in FIG. 5, the ferrite core 300 coupled to the primary bobbin 100 and the secondary bobbin 200 and guiding the magnetic flux by mixing fine powders such as iron oxide or manganese is' It can be reduced to the cost of manufacturing.

6 is a view of a transformer for inverters according to the present invention.

As shown in FIG. 6, the primary bobbin 100, the secondary bobbin 200, and the core 300 having a 'c' shape are combined to form the inverter transformer of the present invention. The transformer for the inverter is not limited by the number of turns due to the turns ratio because the primary bobbin 100 increases in proportion to the output of the secondary bobbin 200 even if the secondary bobbin 200 has the same number of outputs, Even if a plurality of outputs are output from the secondary bobbin 200, the input circuit of the primary bobbin 100 can be simplified to reduce the cost. In the existing inverter structure, the output terminal 210 is limited, so that the number of loads increases. As the number of transformers increases as the production cost increases, the present invention can reduce the manufacturing cost of 10% by adding only the winding of the secondary bobbin 200.

In addition, the insulation method between the windings of the secondary bobbin 200 is configured to enable natural insulation in the state of securing the insulation distance when manufacturing the bobbin and forced insulation using the CAP.

As described above, preferred embodiments according to the present invention have been described, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with the knowledge will have the technical spirit of the present invention to the extent that various modifications can be made.

In the present invention, the primary bobbin and the secondary bobbin are configured separately, so even though the secondary bobbin has the same number of outputs, the primary bobbin increases in proportion to the output of the secondary bobbin, thereby limiting the number of turns due to the turns ratio. Since the primary bobbin and the secondary bobbin have a plurality of input terminals and output terminals, as the quantity of load increases, only a winding is added to the secondary bobbin, thereby reducing the manufacturing cost. The core that guides the magnetic flux in combination with the secondary bobbin is formed in a 'c' shape, thereby reducing the manufacturing cost of the inverter transformer.

Claims (5)

In the inverter transformer, A primary bobbin which converts the DC voltage of the inverter into an AC voltage to form a plurality of input terminals by receiving the AC voltage; A secondary bobbin forming a plurality of output terminals corresponding to an input terminal for the primary bobbin in a form separated from the primary bobbin; A core which is formed to be coupled to the primary bobbin and the secondary bobbin to guide the magnetic flux, and has a structure of a form of 'ㄷ' and is formed on one side and the other side to which the primary bobbin and the secondary bobbin are coupled; The secondary bobbin is configured to correspond to the number of loads by adding only the windings of the secondary bobbin as the number of loads increases, and even though a plurality of outputs are the same, the primary bobbin increases in proportion to the secondary bobbin output, so Transformer for inverter, characterized in that the winding number is not restricted. delete delete delete delete

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