KR20000011946U - Deflection yoke - Google Patents

Abstract

The present invention relates to a deflection yoke, which is fitted to the coil of the coil 142b wound around the outer periphery of the cylindrical bobbin 142a having a thread formed on the inner circumference and the thread of the inner circumference of the bobbin 142a to rotate left and right. The circuit board 140 mounted on the side of the neck portion 121 of the separator 120 by mounting the balance coil 142 composed of the core 142c moved through the circuit board, and the circuit board on which the balance coil 142 is mounted ( In the deflection yoke 100 mounted on the 140 and including a protection plate 150 to prevent external direct impact and deposition of foreign matter, the moving direction of the core 142c fitted to the inner circumference of the bobbin 142a. It characterized in that it comprises a plurality of core operation holes 151 through-molded on both sides of the protective plate 150 to match the. Therefore, when the misalignment phenomenon of the electron beam is found during the measurement of the deflection yoke 100 after the assembly of the circuit board 140 and the protection plate 150 is completed, the core 142c of the balance coil 142 is easily rotated. By providing a plurality of core operating holes 151 through-molded on both sides of the protective plate 150 to operate, the assembling and measuring work of the deflection yoke 100 proceeds very easily, thus greatly increasing productivity and assemblability. There is an excellent effect of getting better.

Description

Deflection yoke

The present invention relates to a deflection yoke, and more particularly, to easily rotate a core of a balance coil when a mislanding phenomenon of an electron beam is found during measurement of a deflection yoke after assembling a circuit board and a protective plate. It relates to a deflection yoke in which a plurality of core operating holes are formed through both sides of the protective plate.

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. A horizontal deflection coil (not shown) and a separator 120 for precisely distinguishing the positions of the horizontal deflection coil and the vertical deflection coil 110 and being electrically insulated from each other.

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.

On the other hand, of 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 sides are installed inclined slightly inward 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 electron beam is accurately sealed to the inner circumference of the stripe of the panel, which is called landing. On the other hand, if the mis-landing occurs in which the electron beam deviates to the outer circumference of the stripe, the image of the screen is not cleared. Sometimes.

Here, as an example of the mislanding, the coma aberration generated by the deflection sensitivity with respect to the center beam is relatively stronger than the deflection sensitivity 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, and a plurality of component elements 143, and is fixed to the side surface of the neck portion 121 and the coma coil 130. ) Is coupled to the structure that is fitted and fixed in the mounting groove 121a recessed and molded 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.

Meanwhile, the circuit board 140 including the plurality of connection terminals 141, the balance coil 142, and the plurality of component elements 143 may be protected from external shock and contact and may be cleaned of dust and foreign substances. The protection plate 150 is attached to prevent the deposition phenomenon, the protection plate 150 has a size corresponding to the area of the circuit board 140, one surface is open and the other five surface is It is shaped into a substantially rectangular cylindrical shape that is sealed.

Referring to the assembly operation of the deflection yoke 100 according to the prior art made of the configuration as follows.

First, the horizontal deflection coil and the vertical deflection coil 110 are mounted on the inner and outer circumferences of the separator 120, and the coma coil 130 is fitted into the mounting groove 121a of the neck portion 121.

Thereafter, the circuit board 140 on which the balance coil 142 and the plurality of component elements 143 are mounted is fixed to the side surface of the neck portion 121, and then the balance coil 142 is prevented to prevent mis-landing of the electron beam. By rotating the core 142c inserted into the inner periphery of the bobbin 142a in the horizontal direction, the core 142c itself may be moved little by little to overcome the mislanding phenomenon of the electron beam.

In addition, the circuit board 140 including the plurality of connection terminals 141, the balance coil 142, and the component elements 143 may be protected from external shock and contact, and at the same time, dust and foreign matter may be deposited. By assembling the protective plate 150 to prevent the assembly is completed.

However, the deflection yoke 100 according to the prior art having the configuration and assembly operation as described above is balanced in order to prevent deterioration of the image quality in which the image of the screen is not clear due to mis-landing in which the electron beam deviates to the outer circumference of the stripe. In rotating the core 142c fitted to the inner circumference of the bobbin 142a of the coil 142 in the horizontal direction, the core 142c of the core 142c is not mounted before the protection plate 150 for protecting the circuit board 140 is mounted. Although the movement can be smoothly operated, if a mislanding phenomenon is found after the assembling of the protection plate 150 is completed, the deflection yoke 100 can be adjusted after disassembling the protection plate 150 again. There was a drawback that the difficulty in assembling and measuring was greatly raised.

Therefore, the present invention has been devised to solve the above problems, and its purpose is to easily detect the mis-landing phenomenon of the electron beam during the measurement of the deflection yoke after completing the assembly of the circuit board and the protective plate. In addition, the present invention relates to a deflection yoke capable of easily assembling and measuring a deflection yoke by providing a plurality of core operation holes on both sides of the protective plate so as to rotate the core of the balance coil.

1 is a partial exploded 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.

Figure 4 is an exploded perspective view showing some of the 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: component element 150: protective plate

151 core operating hole

A deflection yoke according to the present invention for achieving the above object is a core that is wound around a plurality of coils wound around the outer periphery of the cylindrical bobbin threaded on the inner periphery and the core is moved through the left and right rotation by fitting to the thread of the inner periphery of the bobbin On the deflection yoke including a circuit board fixed to the side of the neck portion of the separator by mounting a balance coil and a protection plate mounted on the circuit board on which the balance coil is mounted to prevent direct impact from outside and deposition of foreign substances. In the technical configuration of the present invention, a plurality of core operating holes are formed in both sides of the protective plate so as to coincide with the moving direction of the core fitted to the inner circumference of the bobbin.

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

4 is a partially exploded perspective view showing a deflection yoke according to the present invention, 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 the vertical direction, a horizontal deflection coil deflecting the electron beam in the horizontal direction (not shown), The separator 120 is configured to precisely distinguish the positions of the horizontal deflection coil and the vertical deflection coil 110 and to electrically insulate each other.

The circuit board 140 is fixed to the side of the neck portion 121 of the separator 120, and the circuit board 140 includes a plurality of connection terminals 141, a balance coil 142, and a plurality of component elements ( 143 is mounted, and the coma coil 130 is fitted into the mounting groove 121a of the neck portion 121.

In addition, the balance coil 142, which serves to prevent deterioration of image quality 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 provided, the cylindrical bobbin 142a having a thread formed on the inner circumference thereof. ), A coil 142b wound around the outer periphery of the bobbin 142a, and a core 142c fitted to a thread of the inner periphery of the bobbin 142a and moved through 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.

Meanwhile, the circuit board 140 including the plurality of connection terminals 141, the balance coil 142, and the plurality of component elements 143 may be protected from external shock and contact and may be cleaned of dust and foreign substances. A protective plate 150 is attached to prevent deposition, and the protective plate 150 penetrates to both sides of the protective plate 150 so as to match the moving direction of the core 142c fitted to the inner circumference of the bobbin 142a. A plurality of core operation holes 151 are provided.

Referring to the assembly operation of the deflection yoke 100 according to the prior art made of the configuration as follows.

First, the horizontal deflection coil and the vertical deflection coil 110 are mounted on the inner and outer circumferences of the separator 120, and the coma coil 130 is fitted into the mounting groove 121a of the neck portion 121.

Thereafter, the circuit board 140 on which the balance coil 142 and the plurality of component elements 143 are mounted is fixed to the side surface of the neck portion 121, and then the balance coil 142 is prevented to prevent mis-landing of the electron beam. By rotating the core 142c inserted into the inner periphery of the bobbin 142a in the horizontal direction, the core 142c itself may be moved little by little to overcome the mislanding phenomenon of the electron beam.

In addition, the circuit board 140 including the plurality of connection terminals 141, the balance coil 142, and the component elements 143 may be protected from external shock and contact, and at the same time, dust and foreign matter may be deposited. By assembling the protective plate 150 to prevent the assembly is completed.

On the other hand, if a mis-landing phenomenon of the electron beam is found during the measurement operation of the deflection yoke 100 that has been assembled by the coupling operation, the core operation hole formed through both sides of the protection plate 150 is immediately formed using a tool such as a driver ( 151 to rotate the core 142c constituting the balance coil 142 directly to the left and right to move the position of the core 142c little by little to overcome the mis-landing phenomenon to provide a good image do.

As described above, according to the deflection yoke 100 according to the present invention, when the misalignment phenomenon of the electron beam is found during the measurement operation of the deflection yoke 100 after the assembly of the circuit board 140 and the protection plate 150 is completed. By assembling the deflection yoke 100 by providing a plurality of core operating holes 151 through-molded on both sides of the protective plate 150 so that the core 142c of the balance coil 142 can be easily rotated. The measurement process is very easy, so the productivity and assembly are greatly improved.

Claims (1)

A coil 142b wound around the outer circumference of the cylindrical bobbin 142a having a thread formed on the inner circumference and a core 142c that is fitted to the thread of the inner circumference of the bobbin 142a and moved through left and right rotation. The external circuit is mounted on the circuit board 140 mounted on the side of the neck portion 121 of the separator 120 by mounting the balance coil 142 and the circuit board 140 on which the balance coil 142 is mounted. In the deflection yoke (100) comprising a protective plate (150) for preventing the deposition of foreign matter, Deflection yoke, characterized in that provided with a plurality of core operating holes 151 through-formed on both sides of the protective plate 150 to match the direction of movement of the core 142c fitted to the inner circumference of the bobbin 142a ( 100).