KR0140272B1 - Voltage Draw-Out Structure of Flyback Transformer - Google Patents

Abstract

The present invention relates to a voltage drawing structure of a flyback transformer for supplying a high voltage to a CRT of a TV or a monitor, and more particularly, protrudes different lengths of terminal pins of a high voltage bobbin, The present invention relates to a voltage drawing structure of a flyback transformer that is electrically connected with a conductive rubber terminal to greatly improve quality and productivity. According to the present invention, the terminal pins of the part to draw voltage are protruded and protruded from the terminal parts formed at both ends of the cylindrical bobbin, and the conductive rubber material is attached and fixed to the input terminal of the variable voltage unit, and the protruding terminal pins of the cylindrical bobbin It is inserted into the conductive rubber material to provide a voltage drawing structure of the flyback transformer characterized in that the electrical connection is made.

Description

Voltage Draw-Out Structure of Flyback Transformer

1 is a view illustrating a voltage drawing structure according to the related art, in which an high voltage bobbin, a diode holder, and a focus unit are electrically connected to draw a medium voltage.

2 is a diagram illustrating a voltage drawing structure according to the present invention, and is an exploded view for drawing a medium voltage.

3 is a configuration diagram in which a clip type terminal is formed in a focus unit to draw a voltage according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: conductive rubber material 20: clip terminal

105: cylindrical bobbin 110: terminal portion

115: terminal pin 115a: protruded terminal pin

120: diode holder 122: diode

122b: lead wire BO: voltage variable unit

132a: input terminal

The present invention relates to a voltage drawing structure of a flyback transformer for supplying a high voltage to a CRT of a TV or a monitor, and more particularly, protrudes different lengths of terminal pins of a high voltage bobbin, The present invention relates to a voltage drawing structure of a flyback transformer that is electrically connected with a conductive rubber terminal to greatly improve quality and productivity.

In general, the flyback transformer 100 has a cylindrical bobbin 105 wound around its outer circumferential surface with a coil C generating low voltage, medium voltage and high voltage as shown in FIG. Terminal portions 110 are formed at both ends of the terminal portion, and a plurality of terminal pin fixing ribs 112 are formed at the terminal portions 110, respectively, and the terminal pins 115 are fixed to the upper side in the center of the fixing ribs 112. As a result, the magnet wire 117 drawn from the coil C is wound on the terminal pin 115. In addition, a diode holder 120 having a plurality of diodes 122 mounted on a lower surface thereof is inserted into the terminal portion 110 of the bobbin 105 such that the terminal pins 115 and the diodes 122 are electrically connected to each other. It is to let. In addition, a focus unit 130 that converts a medium voltage into an appropriate focus voltage and a screen voltage as a voltage variable unit is mounted on the upper side of the diode holder 120 as described above, and the focus unit 130 has an input unit. Terminal 132a, focus and screen output terminals 132 and 132c, and ground terminal 132d are formed.

In addition, the lead terminal 122b drawn from the lead wire 122a of the medium voltage diode 122 is connected to the input terminal 132a of the focus unit 130 through the through hole 125 of the diode holder 120. Has However, in the conventional voltage drawing structure as described above, the lead wire 122b connected to the input terminal 132a of the focus unit 130 through the through hole 125 of the diode holder 120 is connected to the lead wire 122a of the diode 122. ), It is impossible to automate, so the productivity is lowered, and the soldering work is also poorly performed, which greatly reduces the quality of the finished product.

The present invention is to solve the conventional problems as described above, it is possible to withdraw voltage without a separate soldering connection to improve the work reliability is improved product quality, easy automation work is greatly improved work productivity It is an object of the present invention to provide a voltage drawing structure of a flyback transformer.

In order to achieve the above object, the present invention, in the voltage extraction structure of the flyback transformer for generating a high voltage, including a cylindrical bobbin, a diode holder, a variable voltage unit, etc., the terminal portion formed at both ends of the cylindrical bobbin The terminal pin of the portion to draw the voltage protrudes and extends, and a conductive rubber material is attached and fixed to the input terminal of the voltage variable unit, and the protruding terminal pin of the cylindrical bobbin is inserted into the conductive rubber material so that an electrical connection connection is made. By providing a voltage drawing structure of the flyback transformer characterized in that made.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

2 shows the power take-off structure 1 of the flyback transformer according to the present invention as a whole. The power supply lead-out structure 1 has a plurality of terminal pin fixing ribs 112 are formed on the terminal portion 110 formed at both ends of the cylindrical bobbin 105, each of the terminal pin ( 115 is mounted, and any length of the terminal pin 115a of the portion of the terminal pin 115 to which the voltage is to be drawn is protruded.

In FIG. 2, a terminal pin 115a connected to a medium voltage generating coil is formed to protrude from among low voltage, medium voltage and high voltage coil, and the terminal pin 115a is a terminal pin connected to a low voltage coil when the voltage to be drawn out is low voltage. If the voltage to be drawn is a high voltage, it may be a terminal pin connected to a high voltage coil, and a plurality of terminal pins respectively connected to a low voltage, a medium voltage, and a high low voltage coil.

On the other hand, the terminal holder 110 of the cylindrical bobbin 105 as described above is inserted into the diode holder 120 from the upper side through the respective terminal pins 115, the diode 122 is electrically connected to the coil, respectively, The focus 130, which is a voltage variable unit, is mounted to an upper side of the diode holder 120. The focus unit 130 is fixed to an inserted state in a casing (not shown) surrounding the cylindrical bobbin 105, and the conductive rubber material 10 is connected to the resistor input terminal 132a of the focus unit 130. The state is protruded outward through the ceramic substrate 137 and the insulating resin layer 139. Therefore, when the focus unit 130 is fixed on the diode holder 120, the medium voltage drawing terminal pin 115a protruding from the terminal portion 110 of the cylindrical bobbin 105 is introduced into the conductive rubber material 10. Inserted, the medium voltage generating coil and the input terminals of the diode and the focus unit are electrically connected through one protruding terminal pin 115a. Therefore, the soldering process with the diode through the lead wire 122b is unnecessary as in the related art, thereby ensuring the reliability of the automation work as well as the electric wiring work.

3 illustrates a structure in which the clip terminal 20 replaces the conductive rubber material 10 on the focus unit 130.

The clip terminal 20 has a rear end electrically connected to the resistor input terminal 132a, and is maintained to protrude outward through the ceramic substrate 137 and the insulating resin layer 139. Opposing elastic pressing pieces 22a and 22b are formed so that the protruding terminal pins 115a of the cylindrical bobbin 10 can be elastically fitted.

As described above, when the low voltage, medium voltage, and high voltage current are drawn from the cylindrical bobbin, the terminal pin corresponding to the type of voltage is protruded for a long time, and the voltage variable unit has an input terminal of a conductive rubber material or an elastic clip terminal. Forming and coupling to the protruding terminal pin can be made to draw voltage from the bobbin easily.

Therefore, it is not a soldering method using a lead wire as in the related art, but because of the fitting method, the reliability of the electrical wiring work is improved, the working speed is significantly faster, and the automation work is possible, thereby obtaining the effect of greatly improving the work productivity.

Claims (4)

In the voltage drawing structure of a flyback transformer that generates a high voltage, including a cylindrical bobbin 105, a diode holder 120, a variable voltage unit 130, and the like, formed at both ends of the cylindrical bobbin 105. The terminal portion 110 protrudes and extends the terminal pin 115a of the portion to draw the voltage, and the conductive rubber material 10 is attached and fixed to the input terminal 132a of the voltage variable unit 130, and the cylindrical bobbin A protruding terminal pin (115a) of the 105 is inserted into the conductive rubber material (10), the voltage drawing structure of the flyback transformer, characterized in that the electrical connection is made. In FIG. 1, the protruding terminal pin 115a is electrically connected to a medium voltage generating coil, and the voltage varying unit 130 is a focus unit. The voltage drawing structure of the flyback transformer according to claim 1, wherein at least two protruding terminal pins (115a) are formed to protrude. The voltage drawing structure of the flyback transformer according to claim 1, wherein an elastic clip terminal (20) is formed in the voltage variable unit (130) to be fixed to the protruding terminal pin (115a).