KR950005807B1 - Crt color purity magnets - Google Patents

Abstract

The objective of this invention is to provide the color purity magnet of a new structure with different thicknesses controlling the purity and static convergence. Color purity magnet in the cathode-ray neck is made up of respective two pieces of 2-pole, 4-pole and 6-pole magnets. The 4-pole magnets in the neckside and screenside have the same magnetic flux densities but have different thicknesses. The 6-pole magnets in the neckside and screenside have the same magnetic flux densities but have different thicknesses.

Description

Color purification magnet

1 is a cross-sectional view showing a state where the CPM according to the present invention is installed in the neck portion of the cathode ray tube.

2 is a detailed cross-sectional view of the six-pole magnet of the CPM according to the present invention.

3 is a cross-sectional view showing a state where a conventional CPM is installed in the neck portion of a cathode ray tube.

* Explanation of symbols for main parts of the drawings

4 ': 6-pole magnet 6': 4-pole magnet

8 ': Dipole magnet 10: Spacer

14: CPM

The present invention relates to a CPM mounted on the neck portion of a cathode ray tube to adjust purity and static convergence, and more particularly, to facilitate fine adjustment of stag convergence between side electron beams or between center beams and side beams. It is about the new structure of CPM.

Generally, in a color cathode ray tube employing an inline electron gun, the axes of three electron guns, including the axis of the cathode ray tube, are arranged in a straight line, which is the path of two outer electron beams emitted from the electron guns located on both sides of the center electron gun. Is symmetrically about the path of the electron beam emitted from the central electron gun.

This has a structural advantage since it is not deflected by means for convergence in the center of the fluorescent screen located in front of the electron gun. However, since assembly errors occur in assembling the parts of the cathode ray tube, it is difficult to provide an ideal cathode ray tube.

This assembly error causes mis-convergence and mis-landing, thereby lowering the color purity. This phenomenon is solved by adjusting the intensity of the magnetic field.

In order to perform this correction, so-called color purity magnets (CPM) are installed around the neck of the cathode ray tube. Generally, the CPM is a quadrupole magnet for moving the color-purifying dipole and the RB beam. And a six-pole magnet that moves the RG beam.

3 is a view showing the installation state of the conventional CPM described above, wherein the CPM is provided on the outer surface of the neck portion of the cathode ray tube. In the CPM, two six-pole magnets (4), four-pole magnets (6), and two-pole magnets (8) are inserted into the magnet mounting tube (2) with the spacers 10 interposed therebetween. It is locked and configured.

The CPM 14 configured as described above is fitted to the neck portion 16 of the cathode ray tube, one side of which is tightened together with a deflection yoke (not shown), and the other side of which is tightened and mounted by a separate CPM clamp 18.

As described above, the operating principle of the CPM has been to manage the convergence adjustment between the side beams or between the side beams and the center beams by the difference in the magnetization amount (intensity of the magnetic flux density) between the two magnet pairs of the respective magnets called pair rates. .

Here, the closed fish rate is calculated as (Q _N -Q _S / Q _S ) × 100, where Q _n is the magnet magnetization of the magnet on the neck and Q _S is the magnet magnetization of the magnet on the screen. The reason is that less than 10% of the magnetic flux deflection is too small, and more than 30% of the magnetic flux deflection is too large to achieve proper convergence.

In addition, the respective roles of the dipole, quadrupole and six-pole magnets are generally used to correct the purity of the dipole magnets, four-pole magnets are used to correct the RB convergence, the six-pole magnets between RG or BG It is used to correct the convergence, which is done by adjusting the angle between the poles of the two magnets, respectively.

However, such a conventional CPM has not only technical difficulties in varying the nominal molecular weights of the respective magnets, but also has many difficulties in managing the pair ratio accordingly.

For this conventional CPM, i.e., for a conventional CPM which has managed to adjust the convergence by the pair rate (difference in magnetic flux density), an object of the present invention is to provide a new structure CPM for adjusting the purity and static convergence. The manufacture of magnets is easy and more effectively provides fine tuning of convergence.

In order to realize the above object, the present invention is composed of two two-pole, four-pole and six-pole magnets, each of which is mounted on a cathode ray tube neck portion to adjust purity and static convergence. The intensity of magnetic flux density of the magnet on the side and the screen is the same, and the thickness of the magnet is the same, and the strength of the magnetic flux density of the neck and magnet on the screen of the six-pole magnet is the same, and the thickness of the magnet is the same. It provides a convergence fine adjustment device of the CPM.

Hereinafter, the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the meantime, the same reference numerals are given to the same parts to avoid duplication in the drawings.

1 is a side view of the CPM according to the present invention, which shows the difference in thickness between the six-pole and quadrupole magnets.

As the conventional structure of the CPM according to the present invention, two six-pole magnets 4 ', four-pole magnets 6' and two-pole magnets 8 'are arranged on the magnet mounting tube 2, as in the conventional case. (10) is inserted and locked and locked by the extreme tightening (12).

CPM composed of such a configuration is fulfilled by being installed on the outer surface of the cathode ray tube in which the electron gun is installed, where the mounting position is that the dipole magnet is mounted on the water-clean side as far as possible without affecting the main lens. More preferred.

In the above structure, the structure of the magnet shown in FIG. 2 shows the six-pole magnet 4 'of FIG. 1, and the thickness of the magnet 42 on the neck side is determined by the screen-side magnet 41. It shows thinner than). In this case, when the thickness of the magnet on the neck side is t _N and the thickness t _S of the magnet on the screen side, it is generally preferable to manage t _N −t _S = ± 0.2 to 1.0 mm.

On the other hand, the magnetization amounts of the neck-side magnet 42 and the screen-side magnet 41 are equal to each other, and this structure is the same in the case of the quadrupole magnet 6 '. When explaining the principle of operation by the configuration of this invention, in general, the force received by the electron is proportional to the displacement of the electron beam 1, the movement displacement of the electron is changed when the thickness of the magnet, as in this invention varies Depending on the thickness of the electron can be adjusted to the force.

In other words, the equation representing the force the electron receives is as follows.

F = qV × B

F: force the electron receives, V electron velocity, B magnetic flux density, q: charge amount

In this equation, the force of the electron is conventionally controlled by the change of B (magnetic flux density, ie magnetization), but in the present invention has a magnet thickness, that is, V = S / T (where S is the distance That is, the thickness of the magnet, and T is the principle of time to change V (electron velocity) to adjust the force the electron receives.

Therefore, for the conventional CPM, that is, the conventional CPM which has managed the adjustment of the convergence by the pair ratio (difference in magnetic flux density), the present invention provides a CPM of the above-described new structure for adjusting the purity and static convergence. By providing a magnet is easy to manufacture and has the advantage of making fine adjustment of the capacitance more effectively.

Claims (2)

In the conventional CPM, which consists of two 2-pole (8 '), 4-pole (6') and 6-pole (4 ') magnets, and is mounted on the cathode ray tube neck part to adjust the purity and static convergence, the 4-pole The intensity of the magnetic flux density of the neck-side magnet and the screen-side magnet of the magnet 6 'is the same and the thickness of the magnet is different from that of the neck-side magnet and the screen-side magnet of the 6-pole magnet 4'. Is the same, and the color purity magnet (CPM), characterized in that the difference in the thickness of the magnet. The color purity magnet (CPM) according to claim 1, wherein the thickness of the neck magnet is thicker than that of the screen magnet.