KR100340414B1 - A bleeder resistance of focus unit - Google Patents

Abstract

The present invention relates to a breather resistance of a focus unit that allows an output terminal to be connected by automation when the lead is connected to a focus unit in an FBT. The technical configuration is that a ceramic substrate on which a focus and a resistive pattern of a screen is printed is focused. A pin fixing hole is formed inside the main body of the unit to be in contact with both ends of the resistor pattern, and the output terminal in which the stopper is integrally formed while being bent to one side inside the pin fixing hole is inserted.

Description

Breather resistance of the focus unit {A BLEEDER RESISTANCE OF FOCUS UNIT}

The present invention provides a focus unit of a flyback transformer, in which an output terminal can be easily connected to a focus unit that changes a focus and screen voltage when a rotating piece moves along a trajectory of a resistor pattern printed on a ceramic substrate. The breather resistance of the focus unit.

Conventionally known FBT generates a high voltage through the high and low pressure bobbins installed therein, and supplies the voltage generated by the bobbin to the CRT through an anode cable, wherein the FBT is installed to one side of the case of the FBT. The focus unit serves to vary the focus and the screen voltage by using a slider formed to elastically support the resistor pattern after printing a resistor pattern having a predetermined shape on the volume substrate in the CRT.

In the structure of a general FBT focus unit related to such a technique, as shown in FIG. 1, the rotating piece 40 in which the focus volume knob 30 is integrally connected to the inside of the main body 20 of the focus unit 10. ) Is installed and a slider 50 having two contacts on one side thereof is mounted, and a resistor pattern 60 having a variable and center contact printed to be connected to the contact of the slider 50 is installed on the ceramic substrate 70. It is made to be molded into the main body 20 as an insulating resin, and the output terminal 80 is fixed to the resistor pattern 60.

In the conventional focus unit 10 as described above, when the focus volume knob 30 protruding to the outside of the main body 20 is rotated by hand to change the focus and screen voltage in the CRT, it is installed in connection with this. The slider 50 rotates integrally with the rotatable piece 40 to move along the trajectory of the resistor pattern 60 printed on the ceramic substrate 70 to vary the focus and the screen voltage.

2 is a diagram illustrating a ceramic substrate 70 installed in a conventional focus unit 10, wherein one side contact of the slider 50 is a focus and screen resistor pattern printed on the ceramic substrate 70. (60) is connected to a variable contact (60a) to change the focus and screen voltage, the other contact of the slider 50 is connected to the center contact (60b) to draw the output value through a resistor Will be.

However, the ceramic substrate 70 of the focus unit 10 as described above has a resistor pattern (manufacturer's manual work when the output terminal 80 is connected to the resistor patterns 60, 60 'of the ceramic substrate 70). By connecting the output terminal 80 and the resistor pattern 60 (60 ') by welding in a state where the output terminal 80 is placed on the ends of the 60 and 60`, it is impossible to automate and deteriorates workability. There was a problem such that the reliable connection of the resistor patterns 60, 60 'and the output terminal 80 impairs the reliability of the connection operation due to the forces.

The present invention is to improve the various problems as described above, the purpose of which is to easily connect the output terminal to the ceramic substrate is formed integrally the resistor pattern is improved mass production, cost is reduced, the output terminal is ceramic It is firmly coupled to the board to provide reliability of the electrical connection, and to provide the breather resistance of the focus unit, which enables the connection of the resistor terminal of the ceramic substrate and the output terminal by automation.

1 is a cross-sectional view showing the structure of a general focus unit;

2 is a schematic diagram showing a connection state of a conventional resistor pattern and an output terminal;

Figure 3 is a schematic diagram showing the connection state of the resistor pattern and the output terminal according to the present invention

4 is a schematic diagram showing an output terminal according to the present invention;

Explanation of symbols on the main parts of the drawings

100 ... ceramic substrate 110 ... resistor pattern

120 ... pin fixing hole 200 ... output terminal

210 ... stopper 220 ... contact

230 ... Bent

As a technical means for achieving the above object, the present invention provides a ceramic substrate in which a resistor pattern is printed such that an arc-shaped focus and a resistor pattern inner diameter side of the screen face each other are provided inside the main body of the focus unit, The pin fixing hole is formed to contact both ends, and bends the inside of the pin fixing hole while providing a breather resistance of the focus unit having a configuration in which an output terminal in which the stopper and the contact protrusion are integrally formed is inserted.

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

Figure 3 is a schematic diagram showing the connection state of the resistor pattern and the output terminal according to the present invention, Figure 4 is a schematic diagram showing the output terminal according to the present invention, the present invention, the ceramic substrate 100 and the output terminal 200 It is made of.

The ceramic substrate 100 is integrally fixed inside the main body of the focus unit, and the focus and screen resistor patterns 110A and 110B, which are formed in an arc shape, are connected to each other, and the resistor patterns 110A and 110B may be connected to each other. Pin fixing holes 120 are integrally formed so as to be in contact with both ends.

In addition, the pin fixing hole 120, the fixing recess 130 is formed integrally on one side of the inner surface.

The output terminals 200 connected to the resistor patterns 110A and 110B, respectively, are press-fitted into the pin fixing holes 120 to integrally form the stopper 210 and the contact protrusion 220 so as to be supported. It is made of a configuration in which the bent portion 230 that is bent at a certain angle on one side is formed integrally.

Referring to the operation of the present invention made of such a configuration as follows.

As shown in FIGS. 3 and 4, the resistor patterns 110A and 110B of the focus and the screen, which are integrally fixed to the inside of the main body of the focus unit and are electrically connected to each other, are connected to the ceramic substrate 100. It is formed integrally on the upper side of the.

In this case, the pin fixing holes 120 which are in contact with both ends of the resistor patterns 110A and 110B are integrally formed so that the output terminal 200 is connected thereto.

In addition, the pin fixing holes 120 are formed to be electrically connected to the resistor patterns 110A and 110B, respectively, and at least one fixing recess 130 is integrally formed at one side of the inner diameter side thereof so that the output terminal 200 is integrated. At least one contact protrusion 220 formed integrally with the output terminal 200 when the is inserted is pressed to prevent the rotation of the output terminal 200 to separate the fixing when the ceramic substrate 100 to the focus unit The positioning operation of the output terminal 200 becomes unnecessary.

The output terminal 200 inserted into the pin fixing hole 120 to be electrically connected to the resistor patterns 110A and 110B, respectively, is press-fitted when inserted into the fixing recess 130 of the pin fixing hole 120. To be fixed, the contact protrusion 220 formed by the press work to be larger than the diameter of the pin fixing hole 120 is press-fitted to be firmly supported.

In addition, the stopper 210 integrally formed by a press operation on one side of the output terminal 200 prevents the output terminal 200 from being downward when the output terminal 200 is inserted into the pin fixing hole 120, When the substrate is inserted into the continuous process in the state in which the output terminal 200 is inserted, the output terminal 200 is fixed to be supported at a predetermined position, thereby enabling automation.

As described above, according to the breather resistance of the focus unit according to the present invention, an output terminal is easily connected to a ceramic substrate in which a resistor pattern is integrally formed, mass production is improved, cost is reduced, and the output terminal is firmly connected to the ceramic substrate. Coupled to provide the reliability of the electrical connection.

Claims (3)

In a focus unit to which a ceramic substrate on which a resistor pattern is formed integrally is mounted, A ceramic substrate 100 through which pin fixing holes 120 are integrally formed so as to contact an end portion of the resistor pattern 110A, The stopper 210 is integrally formed in the pin fixing hole 120 so as to be supported, and the focus unit includes an output terminal 200 which is bent at a predetermined angle and integrally welded to the resistor pattern 110A. Of breather resistance 2. The breather resistor of the focus unit of claim 1, wherein the pin fixing hole 120 formed in the resistor pattern 110A is integrally formed with one side of the fixing recess 130. 2. The breather resistor of the focus unit of claim 1, wherein the output terminal 200 inserted into the pin fixing hole 120 includes a close contact protrusion 220 integrally formed on one side of the stopper 210.