KR100487864B1 - Convergence yoke of Braun tube deflection yoke - Google Patents

Abstract

According to the present invention, the vertical deflection current flowing through the four winding misconvergence correction coils connected in parallel to the vertical deflection coils in series, respectively, is adjusted in the Y-axis 12 o'clock and 6 o'clock directions by adjusting a plurality of variable resistors. The convergence yoke of the deflection yoke for CRT is made to independently adjust the misconvergence (YBH / YCH).

To this end, the present invention is wound around each leg of the two "ㅌ" type iron pieces installed in the left and right symmetry, but the six winding coma-free correction coil (CF15 ~ CF20) connected in series with each other in series with the vertical deflection coil (V11, V12) and Four winding misconvergence correction winding both edge legs of the "ㅌ" -type iron piece and connected in series in pairs, respectively, in parallel with the vertical deflection coils V11 and V12 at the front end of the comma-free correction coils CF15 to CF20. To the plurality of diodes (D3, D4) and the plurality of diodes (D3, D4) connected in parallel with the coils CF11 to CF14, the resistors R13 to the vertical deflection coils (V11, V12) and opposite polarities. Each of them is connected in series, but is connected in parallel to each pair of the misconvergence correction coils CF11 to CF14 to adjust the resistance value so that the vertical deflection current flowing through each pair of the misconvergence correction coils CF11 to CF14 is independently adjusted. Revenge It consists of the resistance resistors VR12 and VR13.

Description

Convergence York of Deflection York for CRT

The present invention relates to a convergence yoke of a deflection yoke for a CRT. In particular, the amount of magnetic field is adjusted by adjusting a plurality of variable resistors for the vertical deflection current flowing through a four- winding misconvergence correction coil connected in series and connected in parallel to a vertical deflection coil. This invention relates to the convergence yoke of the deflection yoke for the CRT, which is configured to independently adjust the misconvergence (YBH / YCH) in the Y-axis 12 o'clock and 6 o'clock directions.

In general, the structure of the CRT is as shown in the vertical cross-sectional view of Figure 1, the electron gun 10 for emitting three electron beams, the screen 20 to reproduce the light by hitting the electron beam and the shadow that distinguishes the electron beam It consists of a mask 30 and a deflection yoke 40 which deflects the electron beam to a predetermined place of the screen 20.

The deflection yoke 40 includes a horizontal deflection coil 41 for deflecting the electron beam emitted from the electron gun 10 in a horizontal direction, a vertical deflection coil 43 for deflecting the electron beam in a vertical direction, and the coil. Conical ferrite core 44 which reduces the loss of magnetic force generated by (41) (43) to increase magnetic efficiency, and not only fixes the coils (41) and the core (44) at a predetermined position, but also the horizontal deflection. The holder 42 which insulates between the coil 41 and the vertical deflection coil 43 and the neck portion of the deflection yoke 40 are attached to a misconvergence caused by a manufacturing error of the deflection yoke 40 and the CRT. It consists of the convergence yoke 45 to correct | amend and a pair of ring-shaped permanent magnet 46.

The operation of the CRT configured as described above will be described with reference to FIG. 1.

First, the deflection yoke 40 flows a current having a frequency of 15.75 KHz or higher to the horizontal deflection coil 41, thereby deflecting the electron beam inside the CRT in a horizontal direction by using a magnetic field, and a vertical deflection coil ( 43, a current having a frequency of 60 Hz is flowed and the electron beam is deflected in the vertical direction by using the magnetic field generated accordingly.

Then, the winding distributions of the horizontal deflection coil 41 and the vertical deflection coil 43 are adjusted to produce barrel or pin-cushion type magnetic fields for each part (opening part, middle part, and neck part) so that three electron beams are positioned at the position. Therefore, different deflection forces are experienced so that they can be collected at the same point at different distances from the starting point of the electron beam to the screen 20 as the arrival point.

In addition, when a current is applied to the deflection coils 41 and 43 to create a magnetic field, it is difficult to deflect the electron beam to the entire surface of the screen 20 only by the magnetic field by the coils 41 and 43. ) To increase the magnetic force by increasing the efficiency of the magnetic field by minimizing the loss on the return path of the magnetic field.

However, as the screen 20 is flattened, enlarged and fixed, only the deflection coils 41 and 43 cannot satisfy the raster distortion and convergence characteristics at the same time, so that the convergence yoke 45 and a pair of ring-shaped permanent magnets ( 46) was attached to the neck portion of the deflection yoke 40 to correct misconvergence due to the manufacturing errors of the deflection yoke 40 and the CRT.

Fig. 2 shows a structural diagram of a convergence yoke 45 attached to the neck portion of a conventional deflection yoke, in which two " ㅌ " type iron pieces 45a and 45b are provided in a symmetrical manner and in series with a vertical deflection coil 43. It consists of six winding coma-free correction coils CF1-CF6 tangentially wound by each leg of the said "ㅌ" -type iron piece 45a, 45b.

Referring to the circuit diagram of Figure 3 attached to the action of the conventional converged yoke configured as described above are as follows.

First, when the vertical deflection current flows through the vertical deflection coils V1 and V2, and then the vertical deflection current is positive, the diode D2 is operated so that the vertical deflection current is adjusted by the correction coils CF1 to CF4 and the correction coil ( CF5, CF6).

At this time, the shape of the generated magnetic field is formed as shown in FIG. 7 so that the G beam is hardly moved by the magnetic fields generated by the correction coils CF1 to CF6, and the R and B beams are forced downward (F1, F2). ), The R beam and the B beam descending to the lower side at the same time as correcting the misconvergence as shown in FIG. 6 are generated by the magnetic fields B1, B2, and B4 generated by the correction coils CF3 and CF4. R and B beams are moved left and right, and the degree of movement of the R and B beams is adjusted by adjusting the variable resistor VR2 to correct misconvergence as shown in FIGS. 4, 5, and 6.

Here, the magnetic field generated by the correction coils CF3 and CF4 acts to correct the misconvergence of the Y axis with little change in the coma even if the variable resistor VR2 is adjusted.

Next, when the vertical deflection current is negative, the direction of the current is reversed. As shown in FIG. 8, the magnetic field formed in the correction coil is formed in the opposite direction, and thus, FIGS. 4, 5, and 6 Misconvergence such as

However, since the convergence yoke of the conventional deflection yoke adjusts the variable resistance VR2, the misconvergence of the 12 o'clock and 6 o'clock directions of FIGS. 4 and 5 simultaneously works, so that the amount of misconvergence of the 12 o'clock and 6 o'clock directions is increased. If this is not the same, it is difficult to correct the misconvergence, as well as the correction coil winding according to the amount of the misconvergence of FIG.

Therefore, the present invention has been proposed to solve the above problems of the prior art, the magnetic field by adjusting a plurality of variable resistance of the vertical deflection current flowing through the four winding misconvergence correction coil connected in series to each other in series and in parallel to the vertical deflection coil. It is an object of the present invention to provide a convergence yoke of a CRT deflection yoke for adjusting the amount of, independently of the misconvergence of the Y axis at 12 o'clock and 6 o'clock.

The technical means of the present invention for achieving this object are a plurality of windings of the comma free correction coil in series with each other connected in series to the vertical deflection coil, and in series with each other in series to parallel to the vertical deflection coil at the front end of the coma free correction coil When connected in parallel to the misconvergence correction coil and the vertical deflection coil of multiple windings connected in parallel, respectively, in parallel to each pair of the misconvergence correction coil and adjusting the resistance value, the vertical deflection current flowing through each pair of the misconvergence correction coil is independently independent. It is characterized by consisting of a plurality of variable resistor to adjust.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

9 is a structural diagram of a converged yoke according to the present invention, and is connected in series with two “ㅌ” type iron pieces 101a and 101b installed in a symmetrical direction and a vertical deflection coil for deflecting an electron beam in a vertical direction. While winding each leg of the "ㅌ" -shaped iron pieces 101a and 101b, the six winding comapri correction coils CF15 to CF20 connected in series with each other, and both edge legs of the "ㅌ" -type iron pieces 101a and 101b, It consists of four winding misconvergence correction coils CF11 to CF14 which are wound but connected in series in pairs and connected in parallel with the vertical deflection coil at the front end of the comafree correction coils CF15 to CF20.

FIG. 10 shows a circuit diagram of a convergence yoke according to the present invention, wherein the comapri correction coils CF15 to CF20 and the misconvergence correction coils CF11 to CF14 and the vertical deflection coils V11, V12) and a plurality of diodes D3 and D4 connected in parallel with opposite polarities together with resistors R13 to the vertical deflection coils V11 and V12, respectively, in series with the plurality of diodes D3 and D4, respectively. When the resistance value is adjusted by being connected in parallel to each pair of the misconvergence correction coils CF11 to CF14, the vertical deflection current flowing through each pair of the misconvergence correction coils CF11 to CF14 is independently adjusted to increase the amount of magnetic field. It is composed of a plurality of variable resistors VR12 and VR13 to be adjusted.

The operation and effect of the present invention configured as described above will be described with reference to FIGS. 1 and 4 to 6 and 9 to 12 as follows.

First, when the vertical deflection current flows through the vertical deflection coils V1 and V2, and the vertical deflection current is positive, the diode D3 is operated to operate the misconvergence correction coils CF13 and CF14 and the comma-free correction coil ( CF15 to CF20).

At this time, the shape of the magnetic field generated in the converged yoke is formed as shown in Fig. 11, so that the G beam is hardly moved by the magnetic field generated by the comma-free correction coils CF15 to CF20, and the R and B beams are moved downward. The R beam and the B beam which are lowered at the same time as receiving the forces F11 and F12 to correct the misconvergence as shown in FIG. 6 are caused by the magnetic fields B11, B12 and B14 generated by the misconvergence correction coils CF13 and CF14. The R and B beams are moved to the left and right by the generated forces F13 and F14, and the degree of movement of the R and B beams to the left and right is adjusted by the variable resistor VR12 at 12 o'clock as shown in FIGS. 4 and 5. The misconvergence of the direction is corrected.

Next, when the vertical deflection current is negative, the direction of the current is reversed, so that the diode D4 is operated to flow to the misconvergence correction coils CF11 and CF12 and the comma-free correction coils CF15 to CF20. .

At this time, as shown in FIG. 12, the shape of the magnetic field generated in the convergence yoke is changed in the direction of the vertical deflection current, and the direction of the magnetic field is also changed.

The G-beam hardly moves due to the magnetic field generated by the coma-prior correction coils CF15 to CF20, and the R-beam and the B-beam are forced upward to correct the misconvergence as shown in FIG. The beams and B beams are moved to the left and right of the R beam and the B beam by the force generated by the magnetic field generated by the misconvergence correction coils CF11 and CF12. VR13) is adjusted to correct misconvergence in the Y-axis 6 o'clock direction as shown in FIGS. 4 and 5.

As described above, according to the present invention, the vertical deflection current flowing through the four winding misconvergence correction coil connected in series with each other in series and connected in parallel to the vertical deflection coil is adjusted by adjusting a plurality of variable resistors to adjust the amount of magnetic field. When the amount of misconvergence in the direction and the 6 o'clock direction is not the same, there is an effect of independently adjusting the misconvergence in the 12 o'clock direction and the 6 o'clock direction.

1 is a vertical cross-sectional structural view of a generally CRT.

2 is a structural diagram of a conventional convergence yoke.

3 is a circuit diagram of the convergence yoke shown in FIG.

4 is a YBH misconvergence pattern diagram.

5 is a YCH misconvergence pattern diagram.

6 is a VCR misconvergence pattern diagram.

FIG. 7 is a magnetic field diagram when the vertical deflection current is positive in the convergence yoke shown in FIG. 2; FIG.

FIG. 8 is a magnetic field diagram when the vertical deflection current is negative in the convergence yoke shown in FIG. 2; FIG.

9 is a structural diagram of a converged yoke according to the present invention.

10 is a circuit diagram of the convergence yoke shown in FIG.

FIG. 11 is a magnetic field diagram when the vertical deflection current is positive in the convergence yoke shown in FIG. 9; FIG.

12 is a magnetic field diagram when the vertical deflection current is negative in the convergence yoke shown in FIG. 9;

Claims (1)

A coma-free correction coil wound around each leg of two “ㅌ” -type iron plates installed in left-right symmetry, connected in series to a vertical deflection coil; A plurality of diodes having opposite polarities connected in parallel with a resistance to the vertical winding coil; In the convergence yoke of the deflection yoke for a CRT including a plurality of variable resistors each connected in series to the plurality of diodes connected in parallel, It is composed of a misconvergence correction coil wound on both side edges of the "ㅌ" -type iron plate, and connected in parallel to either side in each pair with respect to the plurality of variable resistors in front of the comma-free correction coil, Adjusting the resistance value of the variable resistor, the vertical deflection current flowing through each pair of the misconvergence correction coil is independently adjusted convergence yoke of the CRT.

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