KR0182928B1 - Magnetic field cutoff of display device - Google Patents

Abstract

The present invention deforms only the degaussing coil when the tilt coil and the degaussing coil are mounted so that a magnetic field generated from the DY and the tilt coil of the electron tube does not affect the degaussing coil in the 180 ° direction when designing the 17-inch display device. The magnetic shield of the non-shield type display device to satisfy the MPRII standard by blocking the secondary magnetic field generation in the non-shield type display device, the upper and lower (11, 12) is horizontal The middle parts 13 of both sides are integrally formed on the degaussing coil 10 and the intermediate parts 13 of the degaussing coil 10 which are bent to be close to each other at intervals set inward to each other. The magnetic field blocking device of the non-shielded display device is constituted by the tilt coil 20 which is fitted to be positioned around the periphery of 30.

However, the magnetic field generated in the tilt coil 20 'and the deflection yoke DY is synthesized, thereby causing a problem of reducing the electric and magnetic field blocking effects of the degaussing coil 10'.

Description

Magnetic field blocking device of display device

Figure 1 (a) (b) is an exemplary view showing the arrangement of the conventional gauging coil.

2 is an exploded perspective view of a display device showing an installation example of a conventional degaussing coil.

3 is an exemplary view showing another conventional degaussing coil.

Figure 4 is an exploded perspective view of a display device showing a conventional installation example of the external metal shield.

5 is an exploded perspective view of a display device showing an installation example of the present invention degaussing coil.

6 is a perspective view of the present invention degaussing coil.

* Explanation of symbols for main parts of the drawings

10: degaussing coil 11, 12: upper and lower

13: middle part 20: tilt coil

30: electron gun 40: electron tube

50: front case 51: support

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic field blocking device of a display device. More particularly, the magnetic field generated from the DY (deflection yoke) and the tilt coil of the electromagnetic tube by changing the shape of the degaussing coil when the tilt coil and the degaussing coil are mounted. The present invention relates to a magnetic field blocking device of a display device that can satisfy the MPRII standard by blocking secondary magnetic field generation so as not to affect the degaussing coil.

In general, as interest in harmful electromagnetic waves generated from electronic products of users increases, internationally or countries producing electronic products produce EMI tests conforming to EMI standards. EMI specifies clock noise in the 30 MHz-1 GHz band, while the MPRII specification began with MPRI in Sweden in 1987 and strengthened the Swedish National Board For Measurement And Testing II (MPRII) regulation in 1990. This regulation regulates the strength of electric and magnetic fields to minimize the health effects of users due to VDT (Video Display Terminal) syndrome.

This prescribes the strength of the electric and magnetic fields in the electron tube, especially in display devices using electron tubes.

MPRII is a representative test and measurement regulator of harmful electromagnetic waves in Europe and regulates the limits of electric and magnetic fields as shown in Table 1 below.

As described above, the magnetic field and the electric field, which are tightening regulations, are caused by the voltage applied to the deflection coil, and the electric field is caused by the voltage applied to the anode.

Herein, the magnetic field may be shielded by using a separate magnetic field blocking coil on the deflection coil and the deflection coil DY attached to the electron gun.

The magnetic field blocking coil is called a degaussing coil, and its use example has many forms as shown in FIG. 1.

(A) of FIG. 1 shows the installation example of the degaussing coil normally used for 14 or 15 monitors, and (b) of FIG. 1 has shown the shape of the degaussing coil used for 17 or more monitors.

Each monitor manufacturer requires the degaussing coil's magnetic field canceling capability in accordance with the form of (a) and (b) of FIG. 1, and the details are shown in Table 2 below.

For reference, type A is a case of the degaussing coil of the type shown in FIG. 1 (a), B type is a case of the degaussing coil of the type shown in Figure 1 (b).

As shown in Table 2, the degaussing capacity required by 17 inch and 20 inch is larger than 14 inch and 15 inch, and the shape of the type B, i.e., the middle portion is twisted once as shown in FIG. It can be seen that the degaussing capability of the gouging coil device is excellent.

FIG. 2 is an exploded perspective view of the display apparatus showing an example of the installation of the degaussing coil of the shape shown in FIG. 1 (b), and FIG. 3 is an exemplary view showing the degaussing coil installation site of FIG. 2 in more detail.

As shown in FIGS. 2 to 3, the tilt coil 20 ′ is mounted on the degaussing coil 10 ′ to compensate the tilt according to the magnetic field.

In addition, as shown in FIG. 4, the metal shield 30 'is used to block low frequency noise to further increase the blocking effect of the electric field and the magnetic field to cope with the MPR II regulation.

However, the installation of such a shield is accompanied by problems such as a decrease in productivity due to an increase in labor and production costs, and thus, a display device that does not use such a shield has been recently developed.

However, if the shield is not installed, it is not a problem because both the electric field and the magnetic field are shielded by the shadow mask of the electron tube at the front of the display device during the MPRII test, but it is not a problem. Phenomenon occurred in the range of 30 to 37 nT exceeding that, because the magnetic field generated from the deflection yoke (DY) of the electron tube and the magnetic field generated from the tilt coil (20 ') is formed to form a larger magnetic field. to be.

The present invention is to solve this problem, by deforming the shape of the degaussing coil when the tilt coil and the gauging coil is mounted, the magnetic field generated from the deflection yoke (DY) and the tilt coil of the electromagnetic tube affects the gauging coil It is an object of the present invention to provide a magnetic field blocking device for a display device that can satisfy the MPRII standard by blocking secondary magnetic field generation.

In order to achieve the above object, the present invention provides a degaussing coil for preventing a magnetic field generated by a voltage applied to a deflection coil of a display device from being emitted to the outside of the display device, and an intermediate portion of both sides of the degaussing coil. A magnetic field blocking device of a display device, comprising: a tilt coil, which is integrally shaped to be fitted around the electron gun, and a metal shield fastened between the circuit board and the case in a similar form to the case; The intermediate features of both sides of the degaussing coil may be bent to close each other at intervals set inward to each other.

An additional feature of the present invention is that the upper portion of the degaussing coil is fixed to the upper edge of the electron tube, and the lower portion is fixed to the support of the front case.

In addition, the present invention is a degaussing coil for blocking the discharge of the magnetic field generated by the voltage applied to the deflection coil of the display device to the outside of the display device, and integrally formed on both sides of the middle portion of the degaussing coil electron gun In the magnetic field blocking device of the display device consisting of a tilt coil fitted to be positioned in the vicinity of the; The degaussing coil is bent so as to be adjacent to each other at intervals set inward from each other, and is installed between the circuit board and the case to remove the shield to block the magnetic field is another feature of the invention.

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

5 and 6 are embodiments of the present invention, wherein the upper and lower portions 11 and 12 are horizontal and the middle parts 13 are bent to be close to each other at intervals set inwardly. The magnetic field blocking device of the display device is formed of a coil 10 and a tilt coil 20 which is integrally formed on both middle portions 13 of the degaussing coil 10 and fitted to be positioned around the electron gun 30. Configure.

The upper part 11 of the degaussing coil 10 is fixed to the upper edge of the electron tube 40, and the lower part 12 is fixed to the support part 51 of the front case 50.

The present invention configured as described above, in consideration of the capability of the degaussing coil 10, as shown in Table 2 above to achieve the magnetic field blocking effect required by the display device of 17 or more similar to that of FIG. When installed together with the tilt coil 20, the deflection yoke DY and the tilt coil 20 are deformed by deforming the shape of the degaussing coil 10 so as to bend the middle portions 13 on both sides inward. The magnetic field generated from) does not affect the degaussing coil 10 so that secondary magnetic field generation can be suppressed.

The data according to the experimental implementation of the present invention is shown in Tables 3 and 4 below. Table 3 shows electric field measurement data, and Table 4 shows magnetic field measurement data.

* 0 °; Front of display device, 90 °; Left side of the display device, 180 °; Rear of display device, 270 °; The right side of the display device is shown.

* The distance between the instrument and the display device is 50cm when measuring MPRII.

As such, the present invention is a 180 ° direction when designing a 17-inch display device so that the magnetic field generated from the DY and the tilt coil of the electromagnetic tube does not affect the degaussing coil by deforming only the degaussing coil when the tilt coil and the degaussing coil are mounted. It can satisfy MPRII standard by blocking secondary magnetic field generation in non-shield type display device. Also, because it does not use a separate external metal shield, labor is reduced and it is produced with the convenience of worker and assembly. There is an effect to improve the efficiency.

Claims (3)

A gouging coil for blocking the magnetic field generated by the voltage applied to the deflection coil of the display device from being discharged to the outside of the display device, and integrally formed on both sides of the degaussing coil to be positioned around the electron gun. A magnetic field blocking device of a display device comprising a tilt coil and a metal shield fastened between the circuit board and the case in a form similar to the case; The magnetic field blocking device of the display apparatus, wherein the middle parts of both sides of the degaussing coil are bent to approach each other at intervals set inwardly. The magnetic field shield of claim 1, wherein an upper portion of the degaussing coil is fixed to an upper edge of the electron tube and to a branch of the case. A degaussing coil for preventing the magnetic field generated by the voltage applied to the deflection coil of the display device from being discharged to the outside of the display device, and integrally formed on both sides of the degaussing coil and positioned around the electron gun. In the magnetic field blocking device of the display device consisting of a tilt coil fitted so that; The degaussing coil is bent so as to be close to each other at a price set inward from each other the middle portion of the magnetic field blocking device of the display device.