JPH04138654A - Bulb - Google Patents

Abstract

PURPOSE:To prevent an arc discharge by mounting an insulator on at least one of internal lead-in wires connected to both ends of a filament. CONSTITUTION:One of internal lead-in wires 3, 3 for supporting a filament 2, that is, a side of a glass bead 4 of the internal lead-wire 3 for supporting the upper of the filament 2 is coated with a tube-shaped insulator Z consisting of hard glass. Besides, inert gas of xenon gas or the like and nitrogen gas, whose mixing ratio is adjusted, are sealed in a lamp. In this way, generation of an arc discharge can be prevented by preventing the inert gas from being easily ionized without generating a potential difference between the filament and the internal lead-in wire.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Field of Application) The present invention relates to a light bulb, and more particularly to insulation of an internal lead-in wire supporting a filament.

(Prior Art) FIG. 4 shows a conventional small light bulb in which a filament is arranged in the axial direction.

This light bulb places a filament (2) supported by internal lead-in wires (3), (3) on the central axis within a hard glass bulb (1).

Furthermore, in order to ensure the placement of the internal lead-in wires (3), (3), they are held integrally with the bead glass (4), and a getter (5) is attached to one of them.

E110 gold (6) is attached to the sealing part (11) of the glass bulb (1).

Furthermore, since this light bulb is intended to be compact and efficient, argon gas, krypton gas, xenon gas, etc. are used as the filler gas.

(Problems to be Solved by the Invention) Here, to explain the xenon gas, xenon gas has a lower ionization voltage than argon gas and krypton gas (argon = 15°76 ev, krypton: 13.996 ev, Xenon = 12.127
ev).

For this reason, the filament (2) and the internal groove line (3)
Arc discharge is likely to occur between the two. It is generally known to mix nitrogen as a means to prevent this arc discharge, but if the mixing ratio is too high, the lamp characteristics such as the brightness and temperature of the bulb will decrease, and the high rate will increase. I won't be able to do that.

The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a light bulb that does not generate arc discharge while adjusting the mixing ratio of inert gas and nitrogen gas to improve the lamp characteristics. With the goal.

[Configuration of the Invention (Means for Solving the Problems) In order to solve the above problems, the present invention includes a bulb, a filament disposed in the axial direction of the bulb, and an interior connected to both ends of the filament. It is characterized by comprising an inlet line, an insulator covering at least one of the internal inlet lines, and an inert gas sealed in the valve.

(Function) In the present invention, an inert gas such as xenon gas is filled for the purpose of high efficiency, so arc discharge is likely to occur between the filament and the internal lead-in wire, but an insulator is attached to the internal lead-in wire. Therefore, no potential difference is generated between the filament and the internal lead-in wire, making it difficult for the inert gas to be ionized.

(Example) An embodiment of the present invention will be described with reference to FIG.

First, the bulb (1) uses a T12 hard glass bulb, and there is a 100V4 inside on the center axis of this bulb (1).
A filament (2) for 0W is arranged.

This filament (2) has internal lead-in wires (3) at both ends.
, (3), and this lead-in line (3),
(3) is integrally supported by glass beads (4).

Then, an insulator (Z ) hard glass is formed.

This hard glass (Z) is tubular and is inserted into and fixed to one of the internal lead-in wires (3), (3), and is placed near the bottom of the filament (2), for example in the case of (a) (filament (2) ) 2mm inside from the bottom), in case of (b) (
In the case of (1) and (c), it is formed at the same level as the lower part of filament (2) (near the other lead-in line (3)). In addition,
(5) is a getter.

In addition, the mixing ratio of inert gas and nitrogen gas was adjusted to be 90% xenon gas and 10% nitrogen gas (A), and 50% xenon gas and 50% nitrogen gas (B). Enclosed.

When lit, the maximum temperature of bulb (1) in (A) is 290℃,
The luminous flux was 5801 m, the maximum temperature of bulb (1) in (B) was 324°C, and the luminous flux was 5001 m.

In addition, the above three types of light bulbs (A) and (B) ((
Regarding cases a), (b), and (c)), as a result of lighting the above light bulb, in case of (a), the arc voltage is 170%.
In the case of V, (b), the arc voltage was 150% V, and in the case of (c), the arc voltage was 140% V.

As a result, by adjusting the mixing ratio of inert gas and nitrogen gas, it was possible to create a light bulb that does not generate arc discharge while maintaining the above-mentioned lamp characteristics in a good state.

By the way, both ends of the filament (2) of the bulb (1) are supported by the internal lead-in wires (3), (3), and these internal lead-in wires (3), (3) are made of glass beads (
4), forming a stem (7) as shown in FIG.

At this time, the external lead-in wires (9), (9) are connected to the internal lead-in wire (3) via the Dumet wires (8), (8).

(3).

To explain in more detail, this dumet wire (8),
(8) is tightly sealed with a seal part (71) above the stem (7), and the junction point (31) between this Dumet wire (8), (8) and the internal lead-in wire (3), (3) ),
(31) is also tightly sealed.

On the other hand, the junction points (32), (33) between the external lead-in wires (9), (9) and the Dumet wires (8), (8)
2) is configured so that it does not exist within the seal portion (71).

This prevents the temperature of the stem (7) from increasing.
The stem (7) will no longer be fused.

This is the seal part (
71) Since the portion existing within is decreasing,
The temperature is not too high, and leakage current does not easily flow. Therefore, the electrolytic phenomenon of Cu does not occur much on the surface of the Dumet wires (8), (8) in the sealing part (71), and the rate at which Cu in the Dumet wire diffuses into the glass forming the stem (7) is reduced. I will do it.

In addition, this stem (
7) Thermal conductivity does not increase and the temperature does not rise much.

For example, in a general light bulb using this stem (7), from the center part (12) of the bulb (1) to the sealing part (11),
A light bulb with a red ceramic coating (13) is shown in FIG.

According to this, a red paint made of glass frit as a base mixed with red pigment is applied and baked on the surface of the bulb (1) at a temperature lower than the softening temperature of the bulb (1) to form a red ceramic coating (13). Because of this, it is resistant to discoloration and peeling, and it is possible to irradiate red light with a certain level of brightness.

[Effects of the Invention] According to the present invention, a bulb, a filament arranged in the axial direction of the bulb, an internal lead-in wire connected to both ends of the filament, and at least one of the internal lead-in wires are provided.
Since this light bulb consists of an insulator covering the lead wire and an inert gas sealed in the bulb, the mixing ratio of the inert gas and nitrogen gas can be adjusted to maintain the lamp characteristics. arc discharge can be prevented.

[Brief explanation of drawings]

Fig. 1 shows a light bulb showing one embodiment of the present invention, Fig. 2 shows a detailed view of the stem, Fig. 3 shows a light bulb showing another embodiment using this stem, and Fig. 4 shows a conventional light bulb. . (1)...Bulb, (2)...Filament, (3
)(3)...Internal lead-in wire, (Z)...Insulator. Applicant Toshiba Lightic Co., Ltd. Representative Patent Attorney Ono 1) Yoshihiro Figure 1 Early Figure 2 Procedure Amendment Band (Voluntary) October 6, 1990

Claims (1)

[Claims] A bulb, a filament arranged in the axial direction of the bulb, an internal lead-in wire connected to both ends of the filament, and an insulation covering at least one of the internal lead-in wires. A light bulb comprising: a body; and an inert gas sealed in the bulb.