KR200252394Y1 - A volume terminal structure of deflection yoke - Google Patents

Abstract

The present invention is composed of a body portion (143a) having a groove (143b) for receiving a tool, such as a driver, the sensitivity of the electron beam is lowered by the adjustment of the balance coil 142 by varying the impedance according to the left and right rotation control In the volume terminal structure of the deflection yoke including the volume terminal 143 mounted on the circuit board 140 to compensate for the volume terminal 143, the volume terminal 143 changes the amount of rotation change at a position that is a reference of the left and right rotation directions. It characterized in that it comprises a reference protrusion 143c protruded to the uppermost lower surface of the body portion (143a) so that it can be seen with the naked eye. Therefore, it is composed of a body portion 143a having a groove 143b for receiving a tool, such as a driver. It consists of a structure in which the reference protrusion 143c is protruded so that the amount of rotation change can be visually checked at a position that becomes a reference in the left and right rotation directions on the top and bottom surfaces of the volume terminal 143 mounted on the circuit board 140 to compensate. In the case of being fitted to the groove 143b of the volume terminal 143 by using a tool such as a screwdriver and being rotated left and right at the same time, it is placed in the reverse position of the rotation direction of the reference protrusion 143c to rotate the volume terminal 143. There is a useful effect that makes it easy to recognize changes.

Description

Volume terminal structure of deflection yoke {A VOLUME TERMINAL STRUCTURE OF DEFLECTION YOKE}

The present invention relates to a volume terminal structure of the deflection yoke, and more specifically, it is composed of a body portion having a groove for receiving a tool such as a driver, which is lowered by adjusting the balance coil by varying the impedance according to the left and right rotation control. In order to compensate for the deflection sensitivity of the electron beam, the volume terminal structure of the deflection yoke is formed by projecting and forming a reference protrusion so that the amount of rotation change can be visually checked at the position on the top and bottom of the volume terminal mounted on the circuit board. It is about.

In general, the deflection yoke 100 for deflecting the electron beam emitted from the electron gun of the cathode ray tube includes a vertical deflection coil 110 for deflecting the electron beam in a vertical direction, and a deflection yoke for deflecting the electron beam in a horizontal direction. The separator 120 includes a horizontal deflection coil (not shown), and positions of the horizontal deflection coil (not shown) and the vertical deflection coil 110 to be precisely distinguished from each other and electrically insulated from each other. The vertical deflection coil 110 is mounted on the outer circumference of the separator 120, and the horizontal deflection coil (not shown) is mounted on the inner circumference of the separator 120.

At this time, the electron beams of R (Red), G (Green), and B (Blue) emitted from the electron gun of the cathode ray tube are deflected at a predetermined angle by the deflection yoke 100 and pass through the through holes formed in the shadow mask. By sealing a stripe of each fluorescent surface mounted on the inner circumference of the panel and emitting light, a normal image can be realized on the screen of the television.

And, among the three electron guns of the cathode ray tube, the green electron gun in the center coincides with the center axis of the cathode ray tube, but the red and blue electron guns on the left and right are inclined inwardly with respect to the central axis. In the image, the three electron beams should each be designed to focus on the holes of the shadow mask and to simultaneously reach the respective phosphors through the same holes.

In this case, the landing of the electron beam precisely sealed on the inner circumference of the panel is referred to as landing. On the other hand, if the mis-landing occurs when the electron beam deviates to the outer circumference of the stripe, the image of the screen is not clear. do.

In this case, the mislanding may be caused by coma aberration caused by the deflection sensitivity with respect to the center beam being relatively stronger than the deflection sensitivity caused by the pair of side beams.

This coma aberration eventually causes a drop in image quality over the entire television screen and should be eliminated as much as possible, and the function is performed by the coma coil 130.

Meanwhile, the coma coil 130 performing the above function is fixed on the neck portion 121 of the separator 120 and then connected to the substantially rectangular circuit board 140.

In this case, the circuit board 140 includes a plurality of connection terminals 141, a balance coil 142, a plurality of volume terminals 143, etc. for adjusting impedance, and is fixed to the side of the neck part 121. Coma coil 130 is coupled to the structure that is fitted and fixed in the mounting groove (121a) recessed on the neck portion 121 of the separator (120).

Here, the balance coil 142 performs a function of preventing the deterioration of the image of the screen due to mis-landing, in which the electron beam deviates to the outer circumference of the stripe, which is illustrated in FIGS. 2 and 3. As described above, the cylindrical bobbin 142a having a thread formed on the inner circumference, the coil 142b wound around the outer circumference of the bobbin 142a, and the thread of the inner circumference of the bobbin 142a are fitted to the left and right. It consists of a core 142c that is moved through rotation.

In this case, when the core 142c is rotated in the left and right directions using a tool such as a driver, the core 142c is moved in the left and right directions in conjunction with a screw thread formed on the inner circumference of the bobbin 142a to compensate for the mislanding phenomenon of the electron beam. Will be performed.

In addition, the coma coil 130 fixed to the mounting groove 121a is drawn out along the upper surface of the neck portion 121 to connect the terminal 141 of the circuit board 140 vertically provided on the side of the neck portion 121. It is used after binding.

On the other hand, the deflection sensitivity of the electron beam is moved when the core 142c constituting the balance coil 142 is moved in order to prevent the deterioration phenomenon in which the image of the screen becomes unclear due to mis-landing in which the electron beam deviates to the outer circumference of the stripe. In this case, the volume terminal 143 is rotated left and right little by little to change the impedance so that the deflection sensitivity can be restored to its original normal state.

However, the volume terminal 143 performing the function as described above is provided with a groove 143b for receiving a tool such as a driver as shown in FIG. Because of this, the amount to be adjusted, that is, the left and right rotation amount of the body portion (143a) is not easily distinguished by the naked eye of the measurer, so that the measurer must recognize the calculated value after checking the measurement data every time using the measuring system. There was a disadvantage that the measurement operation of the deflection yoke 100 is very slow.

Accordingly, the present invention is devised to solve the above problems, and the object of the present invention is to protrude and form a reference protrusion on the uppermost lower surface so that the amount of rotation change can be easily recognized when the volume terminal is rotated. The present invention provides a volume terminal structure of a deflection yoke so that the amount of change in impedance can be approximately confirmed.

1 is a perspective view showing a deflection yoke according to the prior art.

2 is a perspective view showing a balance coil of a general deflection yoke;

3 is a cross-sectional view showing a balance coil of a general deflection yoke.

4 is a perspective view including a partially enlarged view showing a deflection yoke according to the present invention.

Explanation of symbols on the main parts of the drawings

100: deflection yoke 110: vertical deflection coil

120: separator 121: neck portion

121a: mounting groove 130: coma coil

140: circuit board 141: connection terminal

142: balance coil 142a: bobbin

142b: coil 142c: core

143: volume terminal 143a: body portion

143b: groove 143c: reference protrusion

The present invention for achieving the above object is composed of a body portion having a groove for receiving a tool, such as a driver to compensate the deflection sensitivity of the electron beam is reduced by the adjustment of the balance coil by varying the impedance according to the left and right rotation control In the volume terminal structure of the deflection yoke including a volume terminal mounted on the circuit board, the volume terminal protrudes on the lower surface of the uppermost part of the body so that the rotation change amount can be visually checked at the position of the left and right rotation direction as a reference. What constitutes the molded reference protrusion is a basic feature of the technical configuration.

Hereinafter, a preferred embodiment of the deflection yoke according to the present invention will be described with reference to FIG. 4.

Figure 4 is a perspective view including a partial enlarged view showing a deflection yoke according to the present invention, and the same name and the same reference numerals will be used for the same configuration having the same function as the conventional configuration.

The deflection yoke 100 according to the present invention includes a vertical deflection coil 110 deflecting the electron beam in a vertical direction, a horizontal deflection coil deflecting the electron beam in a horizontal direction (not shown), The horizontal deflection coil 110 and the vertical deflection coil (110) and the position of the separator 120 to be electrically insulated from each other at the same time precisely. The vertical deflection coil (110) is the outer periphery of the separator 120 The horizontal deflection coil (not shown) is mounted on the inner circumference of the separator 120.

In addition, the coma coil 130 is mounted on the neck portion 121 of the separator 120 to remove the coma aberration caused by the deflection sensitivity with respect to the center beam being relatively stronger than the deflection sensitivity caused by the pair of side beams. After that, it is connected to the circuit board 140 fixed to the side of the separator 120.

In this case, the circuit board 140 includes a plurality of connection terminals 141, a balance coil 142, a plurality of volume terminals 143, and the like, which are fixed to the side of the neck part 121.

Meanwhile, as described above, the balance coil 142 performs a function of preventing a deterioration phenomenon in which the image of the screen due to mis-landing, in which the electron beam deviates to the outer circumference of the stripe, is not clear. As shown in FIG. 3, a cylindrical bobbin 142a having a thread formed on an inner circumference, a coil 142b wound around the outer circumference of the bobbin 142a, and a thread of an inner circumference of the bobbin 142a It is made of a core (142c) is fitted in and moved through the left and right rotation.

In this case, when the core 142c is rotated in the left and right directions using a tool such as a driver, the core 142c is moved in the left and right directions in conjunction with a screw thread formed on the inner circumference of the bobbin 142a to compensate for the mislanding phenomenon of the electron beam. Will be performed.

In addition, the coma coil 130 fixed to the mounting groove 121a is drawn out along the upper surface of the neck portion 121 to connect the terminal 141 of the circuit board 140 vertically provided on the side of the neck portion 121. It is used after binding.

On the other hand, the deflection sensitivity of the electron beam is moved when the core 142c constituting the balance coil 142 is moved in order to prevent the deterioration phenomenon in which the image of the screen becomes unclear due to mis-landing in which the electron beam deviates to the outer circumference of the stripe. In this case, the volume terminal 143 is rotated left and right little by little to change the impedance so that the deflection sensitivity can be restored to its original normal state.

At this time, the volume terminal 143 is provided with a groove 143b for receiving a tool such as a driver as shown in Figure 4 is made of a body portion 143a of the rectangular shape that can be rotated left and right, left and right rotation The reference protrusion 143c is protruded and formed on the uppermost lower surface of the body portion 143a so that the rotational change amount can be visually checked at a position serving as a reference of the direction.

For example, when it is fitted to the groove 143b of the volume terminal 143 by using a tool such as a screwdriver and rotates to the left and right, the reference protrusion 143c is placed in the reverse position of the rotation direction so that the volume terminal 143 It is easy to recognize the amount of change in rotation.

As such, the amount of rotation change of the volume terminal 143 can be confirmed to an approximate value according to the position of the reference protrusion 143c, and then the measurement system can be measured more precisely by using a measurement system. It can be seen that there is an action that can be done.

According to the volume terminal structure of the deflection yoke according to the present invention as described above, it is composed of a body portion (143a) having a groove (143b) for receiving a tool, such as a driver, the impedance is varied according to the left and right rotation control In order to compensate for the deflection sensitivity of the electron beam deteriorated by the adjustment of the coil 142, the rotational change amount is visually displayed at a position that is a reference of the left and right rotation directions on the bottom surface of the top end of the volume terminal 143 mounted on the circuit board 140. Consists of a structure in which the reference protrusion 143c is formed to be protruded so that the reference protrusion 143c can be fitted into the groove 143b of the volume terminal 143 by using a tool such as a screwdriver and rotated left and right at the same time. Being placed in the reverse direction of the rotation direction has a useful effect that can easily recognize the amount of rotation change of the volume terminal 143.

That is, the change amount of the rotation of the volume terminal 143 according to the position of the reference protrusion 143c can be confirmed to the approximate value of the change in impedance, and then can be measured more precisely by using the measurement system, so that the measurement work can be greatly simplified. Not only is there an excellent effect that can be faster.

Claims (1)

Comprising a body portion (143a) having a groove (143b) for receiving a tool, such as a driver to compensate the deflection sensitivity of the electron beam is reduced by adjusting the balance coil 142 by varying the impedance according to the left and right rotation control In the volume terminal structure of the deflection yoke, including the volume terminal 143 mounted to the circuit board 140 so that, The volume terminal 143 is characterized in that it comprises a reference protrusion 143c protruded to the uppermost lower surface of the body portion (143a) so as to visually check the rotation change amount at the position of the left and right rotation direction reference Volume terminal structure of deflection yoke.