JPS6126179B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method of sealing a vacuum tube such as a cathode ray tube, and a stem mount used in the method, in which a portion of the end of a glass tube corresponding to the lower side of the stem is reliably removed. The purpose of this paper is to propose a method and stem mount that can be used.

First, with reference to Figure 1, the conventional vacuum tube,
In particular, we will explain the method for sealing the stem of a cathode ray tube and the stem mount used in the method. 1st
The figure is a partial sectional view of the neck portion and stem mount of a cathode ray tube, and FIG. 2 is a perspective view of the stem mount used in the stem sealing method. 1 is a neck portion of the glass tube, 20 is a connecting portion of the inner circumference of the neck portion 1 with the stem 2, 2 is a stem, 21 is an outer circumference of the stem 2, and the outer circumference 21 of the stem 2 has the neck portion 1. The joint portion 20 of is welded. A stem mount 5 has a diameter of, for example, 20 mm, and when the stem 2 is attached to the neck portion 1, the stem 2 is placed on the top of the stem mount 5.

The stem mount 5 is a cylindrical rod-shaped body with a smooth outer peripheral surface, and a plurality of holes 7, 8 arranged on the circumference in the upper end surface 6.
... is bored into which a plurality of pins 9, 10, etc. installed on the stem 2 are inserted. Furthermore, inside the center of the stem mount 5, for example, a diameter
A through hole 11 of 12 to 13 mm is bored, and the aforementioned holes 7, 8, . . . communicate with this through hole 11 inside. 1
2 is the end of the glass tube, that is, the end of the neck part 1, and the tip of the neck part 1 is connected to the stem mount 5.
The cullet 15 is formed by contacting the outer circumferential surface 23 of the cylindrical member 1 and hanging down further downward.

First, the stem 2 at the end 12 of the neck portion 1 is
The stem of the vacuum tube is sealed by melting the joint 20 and fusing the joint 20 to the outer peripheral edge 21 of the stem.

By the way, if the cullet 15 is left hanging down from the end 12 of the neck part 1 after this sealing work, the glass tube may crack from that part, or the pins 9, 10 of the stem 2... In addition to not having a socket for inserting the..., it becomes difficult to attach a jig used for exhausting the neck portion 1. Therefore, nitrogen gas is sent through the through hole 11 of the stem mount 5 to fill the space 13 formed between the end portion 12 and the stem mount 5 with nitrogen gas, thereby inflating the end portion 12 of the glass tube. A hole is made in the neck part 1 and a part 16 corresponding to the lower part of the stem 2 in the neck part 1 is burnt out by the flame of the burner. After this portion 16 is burned out, nitrogen and air are finally removed from the through hole 11 to form a cathode ray tube.

By the way, in this conventional case, since the surface of the stem mount 5 is formed smoothly, the end portion 12 of the neck portion 1 has a large frictional resistance.
is tightly adsorbed to the outer peripheral surface of the stem mount 5, making it difficult for the molten glass to fall downward. Since the thickness of the glass in the portion 16 of the neck portion 1 corresponding to the lower side of the stem 2 is relatively thick, it is quite difficult for this portion 16 to be burned out by the flame of the burner just by sucking in nitrogen gas. difficult.

In view of this, the present invention has a relatively simple configuration, and is capable of reliably burning out and removing the portion corresponding to the lower side of the stem of the glass bulb of a vacuum tube such as a cathode ray tube using a burner flame. This paper attempts to propose a method for sealing the stem of a vacuum tube and a stem mount for use in the method.

Next, an embodiment of the present invention will be described in detail with reference to FIGS. 3 and 4, and parts corresponding to FIGS. Omitted.

In the present invention, a plurality of grooves 17, 18, 19, . A stem mount 5 with... is used. And this stem mount 5
The stem 2 placed on top is placed inside the end of the glass tube, that is, the end 12 of the neck 1, and the end of the glass tube, that is, the end 12 of the neck 1 is melted from the outside with a burner. The end portion of the glass tube, that is, the portion of the end portion 12 of the neck portion 1 corresponding to the lower side of the stem 2 is removed. In the case of this embodiment, eight grooves 17, 18, 19... having a V-shaped cross section are provided, but the cross-sectional shape of the grooves 17, 18, 19 is not limited to the V-shape, but is U-shaped. It's okay to be.

The width of these grooves is, for example, 2 mm, and the depth is, for example, 0.7 mm. That is, by providing the groove on the outer circumferential surface of the stem mount 5, the contact area between the end 12 of the glass tube and the stem mount 5 is reduced, and the frictional resistance thereof is also reduced. The thickness of the glass in the portion 16 corresponding to the lower side is considerably thinner, and the cullet 15 hangs downward by about 5 to 10 mm compared to the conventional case.

Therefore, the thickness of the glass in the portion 16 of the neck portion 1 corresponding to the lower side of the stem 2 is considerably thinner, so that this portion 16 can be burned out with the flame of the burner much more easily than in the conventional case. This makes it possible to improve the production yield of vacuum tubes.

Further, the number of grooves provided on the outer circumferential surface of the stem mount substantially parallel to the axis of the stem mount is not limited to the above-mentioned eight, but can be selected from about six to twelve.

[Brief explanation of the drawing]

Fig. 1 is a partial sectional view of a conventional vacuum tube neck portion and stem mount, Fig. 2 is a perspective view of the stem mount of Fig. 1, and Fig. 3 is a partial sectional view of a vacuum tube neck portion and stem mount to which the method of the present invention is applied. FIG. 4, a partial cross-sectional view, is a perspective view of the stem mount of FIG. 3. 1 is the neck of the glass tube, 2 is the stem, 5 is the stem mount, 12 is the end of the glass tube, 1
7, 18, and 19 are grooves.

Claims (1)

[Scope of Claims] 1. A stem mount in which a plurality of grooves extending substantially parallel to the axial direction of the rod-shaped body are formed in at least the portion of the outer peripheral surface of the rod-shaped body that comes into contact with the inner periphery of the end of the glass bulb of the vacuum tube during melting. The stem mounted on the stem mount is placed within the end of the glass tube, and the end of the glass tube is melted from the outside with a burner to fuse it to the stem. A method for sealing a stem of a vacuum tube, characterized in that a portion of the end of the bulb corresponding to the lower side of the stem is removed. 2. The above-mentioned patent characterized in that a plurality of grooves extending substantially parallel to the axial direction of the rod-shaped body are formed in at least the portion of the outer peripheral surface of the rod-shaped body that comes into contact with the inner periphery of the end of the glass bulb of the vacuum tube during melting. A stem mount used in the vacuum tube sealing method according to claim 1.