KR100570435B1 - Funnel for cathode ray tube - Google Patents

Abstract

The present invention discloses a cathode ray tube rear glass in which a circular cross section is formed at a portion to be cut for the regeneration process of the rear glass having a substantially rectangular yoke. In the rear glass for cathode ray tubes of the present invention, a body portion bonded to the windshield and a yoke portion having a substantially square shape extending rearward of the body portion and a neck bonded to the rear end portion thereof, the yoke portion being substantially circular in cross section. Phosphorous circular cross section is provided, the circular cross section is characterized in that formed at the point of cutting the yoke at least for the regeneration process of the back glass. According to the present invention, the regeneration process is performed by forming a circular cross section of a part of a secondary joint line which is cut for regeneration of the rear glass on the basis of the primary junction line of the neck and the neck having a substantially rectangular yoke and bonded to the neck. There is an effect that can improve the bonding quality with the network, and greatly improve the regeneration yield.

Description

FUNNEL FOR CATHODE RAY TUBE}

1 is a cross-sectional view showing the configuration of a typical cathode ray tube,

2 is a cross-sectional view taken along the line II-II of FIG. 1;

3 is a cross-sectional view taken along line III-III of FIG. 1;

Figure 4 is a cross-sectional view showing the configuration of the rear glass for the cathode ray tube according to the present invention,

5 is a cross-sectional view partially shown to illustrate an example of a circular cross-section in the back glass for a cathode ray tube according to the present invention;

6 is a cross-sectional view taken along line VI-VI of FIG. 5;

Figure 7 is a partial cross-sectional view for explaining another example of the circular cross-section in the back glass for the cathode ray tube according to the present invention,

8 is a cross-sectional view taken along the line VIII-VIII of FIG. 4.

♣ Explanation of symbols for the main parts of the drawing ♣

10: glass bulb 11: tube axis

20: front glass 30: rear glass

32: body part 33: yoke part

40: neck 36: circular section

37: Outer contour of straight line 37 ': Outer contour of curved line

L1: Primary Seam L2: Secondary Seam

The present invention relates to a cathode ray tube rear glass, and more specifically, for a cathode ray tube which can improve a bonding quality and a regeneration yield by forming a circular cross section at a portion to be cut for a regeneration process of a rear glass having a substantially rectangular yoke portion. It's about the rear glass.

Glass bulbs for cathode ray tubes used in the manufacture of color televisions and computer monitors basically consist of three components: the panel through which images are projected, and the cone-shaped joint on the back of the glass. It consists of a funnel and a tubular neck that is joined to the vertices of the back glass. Windshield and rear glass are manufactured by press molding a molten glass mass called glass gob in a desired size and shape.

1 to 3, the front glass 20 of the glass bulb 10 has a face portion 21 for displaying an image and an edge of the face portion 21. A skirt portion 23 having a seal edge 22 extending rearward from the lens, and a blend round portion 24 connecting the face portion 21 and the skirt portion 23. Consists of

The rear glass 30 has a body portion 32 having a seal edge 31 bonded to the seal edge 22 of the windshield 20, and a yoke extending behind the body portion 32. It consists of a portion (Yoke portion) 33. A thio portion 34 of the rear glass 30 indicated by a double-dotted line in FIG. 1 means a point where the body portion 32 and the yoke portion 33 start. The yarn edge 35 is formed at the end of the yoke portion 33, and the yarn edge 41 of the neck 40 is joined to the yarn edge 35 of the yoke portion 33.

A shadow mask 50 having a plurality of holes (not shown) is supported by the skirt portion 23 of the windshield 20 by a stud pin 51, and a shadow mask 50 is provided by the neck 40. The electron gun 60 which emits an electron beam with the imaging fluorescent substance apply | coated to the inner surface of the face part 21 through the hole of () is provided. The yoke portion 33 of the rear glass 30 is provided with a deflection yoke 70 for deflecting the electron beam emitted from the electron gun 60.

On the other hand, the yoke portion 33 of the rear glass 30 has two kinds of cross-sections of a circle and a square, and the rear glass 30 adopting the rectangular yoke portion 33 is increased to reduce power consumption. have. As shown in Figs. 2 and 3, the cross section of the rectangular yoke portion 33 is designed to become rectangular in a circular shape from the thioal portion 34 to the seal edge 35. As shown in Figs.

In the prior art cathode ray tube, in the process of joining the thread edge 41 of the neck 40 to the thread edge 35 of the yoke portion 33, a defect, for example, the tilt of the neck 40 being tilted and joined ( Run-out occurs in which the center axis of the tilt and the neck 40 deviate from the tube axis 11 of the glass bulb 10. Through the regeneration process of the rear glass 30, after removing the neck 40 in which the defect has occurred, the new glass 40 is bonded to the cut portion of the rear glass 30 to regenerate the rear glass 30, thereby improving productivity. We are planning to improve. At this time, the upper portion of the rear glass 30 and the neck 40 is cut by about 3 to 4 mm above the primary bonding line L1 to form a secondary bonding line L2, and the yoke portion 33 through which the secondary bonding line L2 passes. The neck 40 is bonded to the end of the head).

However, as shown in FIG. 3, the rear glass for the cathode ray tube of the related art has a shape of the cross section 33a formed at the end of the yoke portion 33 through which the secondary junction line L2 passes due to the characteristics of the rectangular yoke portion 33. This is accompanied by a problem that the joining quality of the rear glass 30 and the neck 40 is considerably deteriorated because it is not formed as a circle but has a rounded rectangle or a substantially elliptical having a large eccentricity.

The present invention has been made to solve the various problems of the prior art as described above, the object of the present invention is to form by cutting the upper part from the primary seam for the regeneration process of the back glass having a substantially rectangular yoke portion By designing the cross section of the yoke portion through which the secondary junction line passes, the present invention provides a cathode ray tube back glass that can improve the bonding quality with the neck during the regeneration process and improve the regeneration yield.

In order to achieve the above object, the present invention provides a cathode ray tube rear glass including a front glass and a neck, the body being joined to the windshield, and the neck extending to the rear of the body and being joined to the rear end thereof. A rectangular yoke portion is provided, wherein the yoke portion has a circular cross-section having a substantially circular cross section, and the circular cross-sectional portion is formed at a point at which the yoke portion is cut at least for the regeneration process of the rear glass.

Hereinafter, a preferred embodiment of a cathode ray tube rear glass according to the present invention will be described in detail with reference to the accompanying drawings.

4 to 8 are views for explaining the cathode glass tube back glass according to the present invention, the basic configuration of the cathode ray tube described in Figure 1 will be described with the same reference numerals.

Referring to FIG. 4, the cathode glass tube rear glass 30 has a body portion 32 bonded to the windshield 20, and a yoke portion 33 extending in the rear of the body portion 32 and having a substantially rectangular shape. Consists of A thread edge 35 is formed at the end of the yoke portion 33, and the thread edge 41 of the neck 40 is joined to the thread edge 35 of the yoke portion 33. The cross section of the rear glass 30 and the neck 40 through which the primary bonding line L1 through which the yarn edge 35 of the yoke portion 33 and the yarn edge 41 of the neck 40 are joined is formed in a circular shape. It is.

On the other hand, the rear glass 30 having the substantially rectangular yoke portion 33 of the present invention is about 10 mm from the primary bonding line L1, that is, the seal edge 35 toward the body portion 32, preferably about The cross section of the yoke portion 33 is substantially circular in cross section 36 over the entire section up to a point 6 mm apart or over at least some of the sections. In addition, it is preferable that the end surface 36a (refer FIG. 6) of the circular cross section part 36 is formed in a round shape.

5 and 6, the outer contour 37 of the circular cross-sectional portion 36 is formed in a straight line. The straight outer contour 37 is parallel to the tube axis 11 of the glass bulb 10 or inclined to have a predetermined angle θ outward toward the body portion 32 with respect to the yoke portion 33. It is formed. That is, the angle [theta] formed by the outer outline 37 of the straight line with respect to the tube axis 11 satisfies the range of about 0 to 10 degrees. Here, 0 degree angle (theta) is a case where the tube axis 11 and the outer outline 37 are parallel with respect to each other. It is preferable that the angle [theta] formed by the outer outline 37 of the straight line with respect to the tube axis 11 satisfies the range of about 2 to 7 degrees.

In addition, the angle θ formed by the outer outline 37 of the straight line with respect to the tube axis 11 is less than 0 °, i.e., the inclined inwards toward the body portion 32 with respect to the yoke portion 33 to be inclined inwards. In this case, the glass bulb 10 which blocks the path of the electron beam emitted from the electron gun 60 becomes defective. When the angle (θ) formed by the outer outline 37 of the straight line with respect to the tube axis 11 exceeds 10 °, the secondary joint line L2 is cut by cutting the circular cross-section 36 for regeneration of the rear glass 30. When formed, the diameter difference between the circular cross-section portion 36 and the neck 40 through which the secondary joint line L2 passes is greatly generated, and the joining quality is lowered.

As shown in FIG. 4, when the diameter of the neck 40 is 29.1 mm in the rear glass 30 for 32-inch cathode ray tube, the diameter of the circular cross section 36 through which the secondary junction line L2 passes is 30.5. If it is mm or less, the joining quality of the neck 40 and the circular cross section 36 becomes favorable. And when the diameter of the neck 40 is 32.5 mm, if the diameter of the circular cross section 36 through which the secondary joint line L2 passes is 34 mm or less, the joining quality of the neck 40 and the circular cross section 36 is favorable. Done. That is, the diameter R of the circular cross section 36 satisfies R ≦ R ₁ (1 + 10%), preferably R ≦ R ₁ (1 + 5%). Here, R ₁ represents the diameter of the neck 40.

Referring to FIG. 7, the outer contour 37 ′ of the circular cross-section 36 may be formed in a curve instead of a straight line, and at the end of the neck 40 side of the outer contour 37 ′ among the tangents of the curved line 36. The tangent of is similar to the outer outline 37 of the straight line, and the angle θ with respect to the tube axis 11 is configured to satisfy the range of about 0 to 10 °, and is preferably configured to satisfy the range of about 2 to 7 °. . In addition, the diameter R of the circular cross section 36 whose outer contour 37 'is curved is R ≤ R ₁ (1 + 10%), preferably R ≤ R ₁ (1 + 5%). Satisfies. Here, R ₁ represents the diameter of the neck 40.

It is also possible to form the outer contour of the circular cross section by mixing a straight line and a curve satisfying the above conditions.

Referring to FIG. 8, the rear glass 30 is formed in a substantially rectangular shape having a long axis 38a, a short axis 38b, and a diagonal axis 38c. The outer periphery of the cross section 36a of the circular cross section 36 is 0.5 such that the maximum deviation between the major axis 38a, the minor axis 38b and the radiuses r1, r2, r3 in the diagonal axis direction 38c satisfies the equation (1). It is formed in mm or less. When the maximum deviation of the radius (r1, r2, r3) exceeds 0.5mm, the diameter difference between the circular cross-sectional portion 36 and the neck 40 is greatly generated and the bonding quality is reduced.

The operation of the rear glass for the cathode ray tube of the present invention having such a configuration will now be described.

4 and 5, when the worker wants to regenerate the rear glass 30 due to a poor bonding of the rear glass 30 and the neck 40, the seal edge 35 of the rear glass 30 and A straight line located about 2 to 10 mm, preferably about 3 to 6 mm, away from the primary bonding line L1 to which the seal edge 41 of the neck 40 is bonded toward the body portion 32 of the rear glass 30. That is, the point of the circular cross-section portion 36 corresponding to the secondary junction line L2 is cut by the thermal shock of a well-known cutter.

On the other hand, the diameter R of the circular cross section 36 cut by the thermal shock of the cutter satisfies R ≦ R ₁ (1 + 10%), preferably R ≦ R ₁ (1 + 5%), where , R ₁ represents the diameter of the neck 40. Therefore, when the new neck 40 is bonded to the cut end 36a of the rear glass 30, the quality of the secondary bonding portion of the rear glass 30 and the neck 40 is good and consequently the rear glass 30 Can greatly improve the yield. In addition, as shown in FIG. 7, even when the outer contour 37 ′ of the circular cross-section 36 is curved, the regeneration yield is improved through the regeneration process of the rear glass 30 as described above. You can.

The embodiments described above are merely illustrative of the preferred embodiments of the present invention, the scope of the present invention is not limited to the described embodiments, it is within the technical spirit and claims of the present invention Various modifications, variations, or substitutions will be made by those skilled in the art, and such embodiments should be understood to be within the scope of the present invention.

As described above, according to the rear glass for the cathode ray tube according to the present invention, the rear glass having the yoke portion having a substantially rectangular shape and the entire region up to a point spaced apart by a predetermined distance from the primary joint line of the neck or at least of the section. The circular cross-section portion formed in a portion of the section and having a substantially circular cross section has the effect of improving the bonding quality with the neck during the regeneration process, and consequently, greatly improving the reproducing yield.

Claims (8)

In the rear glass for a cathode ray tube having a front glass and a neck, A body part bonded to the windshield, A yoke portion of a rounded square shape extending rearward of the body portion and joined to the neck at a rear end thereof; The yoke portion has a circular cross-section having a circular cross section, and the circular cross-sectional portion is formed at the point of cutting the yoke portion at least for the regeneration process of the rear glass. The method of claim 1, The circular cross-section is formed over the entire section from the rear end of the yoke portion 2mm apart from the point 10mm apart or over at least a portion of the section, characterized in that the glass for the cathode ray tube. The method of claim 2, The outer contour line of the circular cross-section is made of a straight line, the straight line is a cathode ray tube back glass, characterized in that formed in parallel to the tube axis passing through the center of the back glass and the neck. The method of claim 2, The outer contour of the circular cross-section is made of a straight line, the straight line is inclined outward to form a predetermined angle toward the body portion relative to the yoke portion with respect to the tube axis passing through the center of the rear glass and the neck. Back glass for cathode ray tube. The method of claim 2, The outer contour line of the circular cross-section portion is made of a curve, the straight line contacting at the neck side end of the outer contour line of the straight line contacting the curve is the body portion based on the yoke portion with respect to the tube axis passing through the center of the back glass and the neck The rear glass for cathode ray tube, characterized in that inclined outward to achieve a predetermined angle toward. The method of claim 4 or 5, And the angle formed by the straight line with respect to the tube axis is 10 ° or less. The method of claim 1, The diameter (R) of the circular cross-section portion satisfies the relationship of R ≤ R ₁ (1 + 10%), wherein R ₁ is the diameter of the neck, the rear glass for cathode ray tubes. The method of claim 1, The outer circumferential edge of the cross section of the circular cross-section is the maximum deviation of the radius of the major axis, short axis and diagonal axis direction is 0.5mm or less, the rear glass.

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