JPH08111191A - Cathode ray tube - Google Patents

Abstract

PURPOSE: To provide a system for mounting a stem base on a stem glass capable of securing easily and properly filling in a gap between the stem glass and the stem base, and capable of securing high electric insulation between lead pins and assure sufficient dielectric pressure strength by holding clay or putty- like thermosetting adhesive silicon rubber composition with fire retardancy and electric insulation between the stem glass and the stem base for an electron gun. CONSTITUTION: Clay thermosetting adhesive silicon rubber composition 1 with fire retardancy and electric insulation is arranged between a stem glass 2 and a stem base 3 for an electron gun. The stem base 3 is formed of polycarbonate and so constructed that all lead pins coming out of the stem glass 2 are inserted and fitted therein. The silicone rubber composition is formed in clay or putty shape, so that the stem base can be extruded and inserted toward the stem glass and filled therein while uniformly moving around a gap between the stem glass and the stem base.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a novel mounting mechanism for mounting a stem glass and a stem base on a TV cathode ray tube electron gun section.

[0002]

2. Description of the Related Art Conventionally, as a method of mounting a stem base on a TV glass tube electron gun stem glass, the stem glass is coated with a one-component type room temperature curable silicone rubber (hereinafter referred to as RTV silicone rubber) When the base is inserted into the stem glass and the RTV silicone rubber hardens after a certain period of time, the stem glass and the stem base are adhesively fixed by the RTV silicone rubber, and the electrical insulation between the lead wires (lead pins) on the stem glass Are known to improve.

[0003]

However, in the above-mentioned conventional method, since the RTV silicone rubber has a high fluidity, it is difficult to properly fill the gap between the stem glass and the stem base, and the RTV silicone rubber is cured. In this case, there is a problem that air accumulation or foaming is likely to occur at the interface with the stem glass and the stem base, the electrical insulation between the lead pins is deteriorated, and the designed withstand voltage cannot be secured.

In order to solve the above-mentioned problems of the prior art, the present invention provides a stem glass in which the gap between the stem glass and the stem base can be appropriately filled easily, the electric insulation between the lead pins is high, and a sufficient withstand voltage can be secured. It is intended to provide a stem-based mounting method of.

[0005]

[Means for Solving the Problems] In order to achieve the above object,
The cathode ray tube of the present invention is a cathode ray tube including at least a glass panel, a cathode ray tube main body connected to the rear portion of the glass panel, and an electron gun provided at the rear portion of the cathode ray tube main body. It is characterized in that a clay-like or putty-like thermosetting adhesive type silicone rubber composition having flame resistance and electrical insulation is sandwiched between the glass and the stem base.

In the above construction, the clay-like or putty-like thermosetting adhesive type silicone rubber composition is preformed into an arbitrary shape capable of appropriately filling the gap between the stem glass and the stem base, and the stem is It is preferable that it is attached to the base.

[0007]

According to the constitution of the present invention, a clay-like or putty-like thermosetting adhesive type silicone rubber composition having flame retardancy and electrical insulation is sandwiched between the electron gun stem glass and the stem base. As a result, it is possible to realize a method of mounting the stem base on the stem glass in which the gap between the stem glass and the stem base can be easily filled appropriately, the electrical insulation between the lead pins is high, and a sufficient withstand voltage can be secured.

In a preferred embodiment of the present invention, the thermosetting adhesive silicone rubber composition interposed between the stem glass and the stem base is clay-like or putty-like, and is preformed and attached to the stem base. Therefore, when pressing and fixing the stem base, it does not protrude or shift to unnecessary parts, so it is possible to uniformly fill the gap between the stem glass and the stem base with the clay-like silicone rubber composition. Moreover, it can be cured by heating by a heating device without causing air dripping and foaming, and adheres to the stem glass and stem base, so the silicone rubber composition, electron gun stem glass, and stem base can be integrated into one part. Can be transformed. Therefore, the electrical insulation between the lead pins is improved,
It is possible to secure the dielectric strength voltage as designed. Further, since the silicone rubber composition has flame retardancy, the reliability of the electron gun part can be improved.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a perspective view showing a mounting mechanism of a TV glass electron gun section stem glass and a stem base according to the present invention,
2 is a sectional view taken along the line aa 'in FIG. As shown in FIGS. 1 and 2, this mounting mechanism is arranged between the electron gun section stem glass 2 and the stem glass 2 and the stem base 3, and is a flame-like and electrically insulating clay-like thermosetting adhesive. The mold type silicone rubber composition 1 and the stem base 3 arranged on the silicone rubber composition 1 and pressed and inserted in the direction of the silicone rubber composition 1 and the stem glass 2.
Here, the stem base is made of polycarbonate and has a structure in which all the lead pins protruding from the stem glass are inserted and fitted. In addition, the silicone rubber composition has a clay-like or putty-like shape that can be filled evenly by squeezing the gap generated between the stem glass and the stem base evenly by extruding and inserting the stem base in the direction of the stem glass. Has become.

In the above, in order to make the silicone rubber flame-retardant, for example, a Pt compound, titanium oxide or the like is added. 3 is a front view showing a form in which the clay-like thermosetting adhesive type silicone rubber composition used in the mounting mechanism according to the present invention is preformed and attached to a stem base, and FIG. It is a bb 'sectional view. As shown in FIGS. 3 and 4, the clay-like thermosetting adhesive type silicone rubber composition used in this mounting mechanism is preformed,
In addition, the shaped article attached to the stem base is composed of the stem base 3 and the clay-like thermosetting adhesive silicone rubber composition attached to the stem base facing the stem glass. Here, the clay-like thermosetting adhesive type silicone rubber composition is uniformly pressed and filled in the gap generated during the mounting of the stem glass and the stem base, and is sufficient between lead pins to which a high voltage is applied and between other adjacent lead pins. It is preformed into a shape that can be uniformly pressed and filled into the stem base, and is attached at a predetermined position on the stem base by utilizing the tackiness of the clay-like thermosetting adhesive silicone rubber composition. ing.

Next, in the mounting mechanism having the above-mentioned structure, after the extrusion of the stem base into the stem glass, the clay-like thermosetting adhesive type silicone rubber composition is heated by a heating device without causing air accumulation or foaming. Cured,
Moreover, since it adheres to the stem glass and the stem base, it is possible to integrate the three parts of the silicone rubber composition, the electron gun stem glass, and the stem base. For this reason,
The electrical insulation between the lead pins is improved, and the designed withstand voltage can be secured. Further, since the silicone rubber composition has flame retardancy, the reliability of the electron gun part can be improved.

In the above, the clay-like thermosetting adhesive silicone rubber composition 1 having flame retardancy and electrical insulation can be manufactured as follows. (1) Flame-retardant and electrically insulating silicone compound XE20 (manufactured by Toshiba Silicone Co., Ltd.): 100 parts by weight (2) Silane coupling agent γ-glycidoxypropyltrimethoxysilane: 2 parts by weight (3) Organic peroxide 1.5 parts by weight of the product By this, it is possible to obtain a clay-like thermosetting adhesive silicone composition 1 having flame retardancy and electrical insulation. In this way, when the flame retardancy and electric insulation of the produced Silicone Composition 1 were measured, the flame retardancy was UL94V-1.
About (thickness 0.3 mmt V-0, thickness 2.0 m V-1),
Regarding the electric insulation, the dielectric breakdown voltage (JIS-C-2123 test method applied) was 24 kv / mm, and the volume resistivity (JIS-C-2123 test method applied) was 1.8 × 10 ¹⁵ Ω · cm. Further, the above silicone composition 1 was processed into a sheet of 2.5 mmt, and it was sandwiched between the stem base made of polycarbonate and a glass plate having a smooth surface, and a load of 5 kgf was applied in the vertical direction. The adhesive strength in the vertical direction after the heat treatment for 45 hours was 45 kgf. The compounding amount of the silane coupling agent is preferably 1 to 5 parts by weight with respect to 100 parts by weight of the silicone compound. Also,
The organic peroxide is 1 to 5 parts by weight of 2.4 dichlorobenzoyl peroxide in 100 parts by weight of the silicone compound.
It is preferably part by weight.

The preform processing can be manufactured as follows. First, a clay-like thermosetting adhesive type silicone composition 1 having flame retardancy and electrical insulation is extruded into a tape shape, covered with polyethylene film tape on the upper and lower sides, and wound into a roll shape. Next, this roll-like material is continuously punched into a half-cut shape together with the silicone composition 1 and the polyethylene film using a die set die in any shape. Then, the punching burr is removed, the punched silicone composition 1 is attached to the stem base using a dedicated jig, and finally the polyethylene film tape is peeled off.

When the mounting mechanism having the above-mentioned structure is applied to a high-luminance, high-resolution type TV CRT, the electrical insulation between the stem glass and the stem base is improved, and the voltage applied to the electron gun is increased. Therefore, higher brightness and higher resolution of the TV CRT can be realized.

[0015]

As described above, according to the mounting mechanism of the present invention, since the silicone rubber composition interposed between the stem glass and the stem base is clay-like and thermosetting adhesive type, it is cured. Occasionally air bubbles and foaming do not occur at the interface between the stem base and the stem glass, so that the electrical insulation between the lead pins can be improved, and moreover the cured glass adheres to the stem glass and the stem base, the silicone rubber composition, the electron gun. Part stem glass and stem base can be integrated. Therefore, the dielectric strength of the electron gun can be increased. Furthermore, since the silicone rubber composition has flame retardancy, the reliability of the electron gun part can be improved.

[Brief description of drawings]

FIG. 1 is a perspective view showing a mounting mechanism of a TV glass tube electron gun section stem glass and a stem base according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along the line aa ′ of FIG.

FIG. 3 is a front view showing a form in which the clay-like thermosetting adhesive type silicone rubber composition used in the mounting mechanism of one embodiment of the present invention is preformed and attached to the stem base.

4 is a cross-sectional view taken along the line bb 'of FIG.

[Explanation of symbols]

1 Clay-like Thermosetting Adhesive Silicone Rubber Composition 2 Stem Glass 3 Stem Base (Polycarbonate) 4 Lead Pin 5 Electron Gun 6 Cathode 7 Clay-like Thermosetting Adhesive Silicone Rubber Composition (preform, after pasting)

Claims (2)

[Claims] 1. A cathode ray tube comprising at least a glass panel, a cathode ray tube main body connected to a rear portion of the glass panel, and an electron gun provided at the rear portion of the cathode ray tube main body, wherein an electron gun stem glass is provided. A cathode ray tube, characterized in that a clay-like or putty-like thermosetting adhesive type silicone rubber composition having flame retardancy and electrical insulation is sandwiched between the stem base and the stem base. 2. A clay-like or putty-like thermosetting adhesive type silicone rubber composition is preformed in advance into an arbitrary shape capable of appropriately filling a gap between the stem glass and the stem base, and attached to the stem base. The cathode ray tube according to claim 1, which is in an attached form.