KR940002927Y1 - Projection type cathode-ray tube - Google Patents

Abstract

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Description

Projection Cathode Ray Tube

1 is a schematic diagram showing a conventional projection type cathode ray tube structure.

2 is a schematic view showing the configuration of a projection cathode ray tube according to the present invention.

* Explanation of symbols for main parts of the drawings

11: neck part 13: focus magnet

14 spacer 16 alignment magnet

17: extension part

The present invention relates to a projection type cathode ray tube, and more particularly, to a projection type cathode ray tube capable of improving focus characteristics.

The projection cathode ray tube has a structure in which one mono electron gun is accommodated inside the bulb composed of a face plate, a panel portion, and a neck portion, and three projection cathode ray tubes are combined for R, G, and B, respectively, to produce a single projection television. Will form.

1 is a schematic view showing a conventional projection type cathode ray tube 1, in which an electron gun 3 is enclosed in the neck portion 2.

And the ring-shaped alignment magnet 4 is arrange | positioned in the substantially middle part of the electron gun 3 in the outer periphery of the neck part 2, and the space around the space from the rear end of the electron gun 3 to the deflection yoke 6 is carried out. A ring-shaped focus magnet 5 is also arranged.

The alignment magnet 4 applies a magnetic field with the electron gun 3 to center the beam generated at the electrode so as to be radiated in accordance with the center of the electrode, and the focus magnet 5 is predetermined to the beam to be radiated. It acts to be connected by acting magnetic field of.

In such a conventional projection type cathode ray tube, the focus magnet 5 has a relatively small inner diameter substantially matching the outer diameter of the neck portion 2, and the electric field is also the electron gun (the intermediate between the electron gun 3 and the deflection yoke 6). Since it is 60-70 mm long to cover the part, it is very sensitive to the focus characteristic, and if the mounting position is not selected accurately, there is a problem that the connection effect of the electron beam does not appear.

Positioning of the focus magnet is not a difficult task during the assembly of the cathode ray tube, but if the position is changed after mounting, the position of the focus magnet will be treated as a defect.

In view of this, the conventional projection type cathode ray tube has room for improvement.

It is an object of the present invention to provide a projection type cathode ray tube which solves the above-mentioned problems in the prior art so that a change in focus characteristics does not occur even if some deterioration changes occur after installation.

In accordance with the above object, the present invention extends the entire length of the focuser magnet to a length that can cover the entire outer circumferential surface of the neck portion, and extends the inner diameter of the focus magnet larger than the outer diameter of the neck portion to a nonmagnetic spacer interposed therein. It is proposed a projection type cathode ray tube in which the magnetic field of the focus magnet is operated over a wide range with an intensity sufficient for the connection of the beam by being supported by mounting by means of the mounting support.

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

2 is a view schematically showing the structure of a projection cathode ray tube according to the present invention, wherein reference numeral 10 denotes a projection cathode ray tube.

The projection type cathode ray tube 10 of the present invention has a conventional structure in which an electron gun 12 is enclosed inside the neck portion 11, but the focus magnet 13 has a neck portion 11 having an inner diameter D thereof. It has a large diameter cylindrical shape that extends approximately 2 mm or more larger than its outer diameter, and has a length of 200 to 300 mm so that it can be covered to the outer circumferential side of the electron gun 12 by the extension part 17 also in its entire length. .

Thus, the focus magnet 13 can be mounted directly on the outer circumference of the neck portion 11 as the inner diameter of the focusing diameter is large, so that the focus magnet 13 may be mounted through the spacer 14 in the present invention. Doing.

In addition, it is preferable to provide two or three spacers 14 for stable support of the focus magnet 13.

The range covered by the focus magnet 13 described above on the outer circumference of the neck portion 11 should be such that the deflection magnetic field and cross-torque generated in the deflection yoke 15 do not occur and are mounted as close to the funnel side as possible. In this case, a change in focus characteristic does not occur.

And the alignment magnet 16 mounted in the outer periphery predetermined position of the electron gun 12 in the outer periphery of the neck part 11 becomes the same standard as before, and is located inside the focus magnet 13 mentioned above.

According to the present invention configured as described above, the extension part 17 of the focus magnet 13 covers the entire outer circumference of the electron gun 12 and further covers the space between the neck part 11 and the deflection yoke 15 as a whole. Even though the inner diameter D is increased, the influence of the magnetic field becomes sufficient to focus the beam as in the prior art. In addition, since the magnetic field range of the focus magnet 13 is determined about three times as compared with the related art, there is an effect that no change occurs in the focusing specification of the beam even if the basket is not accurately maintained.

In fact, as a result of simulating and testing a projection type cathode ray tube according to the present invention, even when the extension part 17 covers the entire electron gun 12, cross-talk phenomenon with the alignment magnet 16 does not occur, but it is deflected. Reaching the position overlapping with the yoke (15) it was found that cross-talk occurs and the beam focusing is not good.

Therefore, in the case of the projection type cathode ray tube according to the present invention, the overall length of the focus magnet 13 should be limited to the extent that the extension 17 can cover the entire electron gun 13 and does not overlap the deflection yoke 15. In addition, although the inner diameter is larger, it is preferable, but the desired effect can be obtained by actually expanding the inner portion of the neck portion 11 by about 2 mm.

As described above, the present invention extends the inner diameter and the overall length of the focus magnet to cover the entire outer circumference of the neck portion, so that the focusing magnetic field acts on the outer circumference of the neck portion in a wider range than the conventional method, thereby changing the position of the focus magnet. Even if the focus change of the beam does not occur, the mounting of the four-cut magnet for implementing the beam can be accomplished by using a simple reshaped nonmagnetic spacer, which can solve the trouble of attaching the focus magnet as conventionally. It has practicality that can be increased.

Claims (1)

In the projection type cathode ray tube in which an electron gun is enclosed inside the neck portion and an alignment magnet and a focus magnet are respectively mounted at a predetermined position on the outer circumference thereof, the entire length of the focus magnet 13 described above covers the entire neck portion 11. A projection type cathode ray tube, characterized in that the inner diameter (D) extends beyond the outer diameter of the neck portion (11) so as to be mounted and supported by a plurality of spacers (14) made of nonmagnetic material.