JP2011146205A - Filament lamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a structure in which the length of adhesion between glass and metal foil of a sealing portion can be secured sufficiently and a short-length of a lamp can be attained in a filament lamp in which an inner lead connected to the end part of the filament arranged inside the arc tube and an external lead led to the outside of the arc tube are connected to the metal foil embedded in the sealing portion at the both ends of the arc tube. <P>SOLUTION: In the sealing portion, the inner lead and the external lead are connected respectively to a side face on the different sides of the metal foil. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a filament lamp, and particularly relates to a connection structure between a metal foil and a lead in a sealed portion of an arc tube.

Conventionally, in a filament lamp used as a heating light source for fixing toner in an image fixing apparatus such as a copying machine or a laser beam printer, a metal foil in a sealing portion at both ends, an internal lead at both ends of the filament, and an outside of the arc tube In general, a pinch seal is connected to the lead-out external lead.
Patent Document 1 (Japanese Patent Laid-Open No. 11-31481) and the like are examples of this prior art, and the prior arts shown in FIGS. 4 and 5 are shown.

In FIG. 4, sealing portions 12 are formed at both ends of a long arc tube 11 made of quartz glass, and a filament 14 is arranged inside the arc tube 11 so as to coincide with the tube axis. . A metal foil 13 is embedded in the sealing portions 12 at both ends of the arc tube 11, and internal leads 15 connected to both ends of the filament 14 and external leads 16 led out of the arc tube. Are connected to the metal foil 13 by welding or the like.
Sealing is performed by a so-called pinch seal in which the sealing portion 12 is heated and melted in a state where the metal foil 13, the internal lead 15, and the external lead 16 are disposed in the sealing portion 12, and is crushed by applying pressure from the outside. A structure is formed.
With this structure, electricity supplied to the external lead 16 is transmitted to the internal lead 15 via the metal foil 13, thereby enabling power supply to the filament 14 in the arc tube 11 from the outside.
In the prior art, as shown in FIG. 5, the internal lead 15 and the external lead 16 are welded to the metal foil 13 at a predetermined distance, and at this portion, the quartz glass and the metal foil 13 of the sealing portion 12 are welded. Are in close contact with each other, and the airtightness inside the arc tube 11 is maintained by the contact portion 12a.
It should be noted that since there is a considerable gap between the inner lead 15 and the outer lead 16 with the glass, this portion does not function effectively as a sealing portion.

In the prior art, the internal lead 15 and the external lead 16 are welded to the same side surface of the metal foil 13 with a gap therebetween, and as described above, the airtightness of the arc tube 11 is the sealing portion 12. In order to obtain sufficient airtightness, it is necessary to increase the length L1 of the contact portion 12a. come.
On the other hand, devices such as copying machines on which filament lamps are mounted are being further miniaturized, and for this reason, shortening of filament lamps is inevitably required.
Since the original size applied to the copying machine is fixed to A3, A4, etc., the filament lamp filament 14 is adapted to the original size, and therefore the length cannot be shortened. In order to shorten the filament lamp, it is necessary to shorten the sealing portion 12.

  However, in the above prior art, if the sealing portion 12 is to be shortened, the length L1 of the close contact portion 12a between the glass and the metal foil 13 is shortened, and sufficient airtightness cannot be secured. There is a problem.

Japanese Patent Laid-Open No. 11-31481

  In view of the above-mentioned problems of the prior art, the present invention has sealing portions formed at both ends of the arc tube, and a metal foil embedded in the sealing portion is attached to the end portion of the filament disposed inside the arc tube. In a filament lamp in which a connected internal lead and an external lead led out of the arc tube are connected, it is intended to provide a structure in which sufficient hermeticity can be obtained even if the sealing portion is shortened. Is.

In order to solve the above-mentioned problems, the present invention is characterized in that an internal lead and an external lead are respectively connected to side surfaces of different sides of the metal foil in the sealing portions at both ends of the arc tube.
Further, the internal leads at both ends of the filament are connected to the same side surface of the metal foil in the sealing portion at both ends.

According to the present invention, since the internal lead and the external lead are connected to different side surfaces with respect to the metal foil in the sealing portion, the length of the adhesion portion between the glass and the metal foil that actually brings about airtightness is increased. And sufficient airtightness can be obtained. For this reason, there exists an effect that the length of a sealing part can be shortened, maintaining the airtightness equivalent to or more than before.
Moreover, since the internal leads at both ends of the filament are connected to the side surfaces on the same side of the metal foil in the sealing portion at both ends, the connection work does not become unnecessarily complicated.

Sectional drawing of the filament lamp of this invention. The partial expanded sectional view of FIG. FIG. 3 is an enlarged cross-sectional view of the sealing portion in FIG. 2. Sectional drawing of a prior art. The sealing part expansion cross-sectional view of a prior art.

FIG. 1 is a cross-sectional view of a filament lamp of the present invention, FIG. 2 is an enlarged cross-sectional view of the sealing portion, and FIG. 3 is an enlarged cross-sectional view of the sealing portion.
In FIG. 1, a filament 4 is disposed inside an arc tube 1 made of quartz glass, and internal leads 5 and 5 are connected to both ends thereof. The arc tube 1 is filled with, for example, an inert gas containing nitrogen gas and a halogen compound.
As shown in FIG. 2, a metal foil 3 is embedded in the sealing portion 2 at the end of the arc tube 1, and the internal lead 5 is welded to one side surface 3a of the metal foil 3 by welding or the like. It is connected. An external lead 6 is connected to the other side surface 3 b of the metal foil 3 opposite to the one side surface 3 a by welding or the like, and is led out of the arc tube 1.

Referring to FIG. 1 again, the internal leads 5 and 5 at both ends of the filament 4 are welded to the side surfaces on the same side with respect to the metal foils 3 and 3 in the sealing portions 2 and 2 at both ends, respectively. The external leads 6 and 6 are connected to different side surfaces opposite to each other.
In addition, the connection between the metal foil, the internal lead, and the external lead can employ caulking or the like other than welding.

As shown in FIG. 3, in such a structure, the close contact portion 2 a where the glass of the sealing portion 2 and the metal foil 3 are in close contact with each other on the side surface 3 a to which the internal lead 5 is connected. From immediately after the rear end to the rear end of the metal foil 3. On the other hand, the close contact portion 2b at the side surface 3b to which the external lead 6 that is the opposite side surface of the side surface 3a is connected extends from immediately before the tip of the external lead 6 to the tip of the metal foil 3.
Here, the front end and the rear end mean an end on the arc tube side and an end opposite to the arc tube, respectively.
Thus, the adhesion length between the glass of the sealing portion 2 and the metal foil 3, that is, the length L2 of the adhesion portion 2a on one side surface 3a and the length L3 of the adhesion portion 2b on the other side surface 3b are as follows. In comparison with the conventional example, the length becomes sufficiently long, and the airtightness in the portion can be sufficiently secured.

  In addition, since the internal leads 5 and 5 at both ends of the filament 4 are welded to the same side surface of the metal foil 3 in the sealing portion 2 at both ends, the metal foil 3 and the internal leads 5 and 5 at both ends are connected. There is an advantage that the work can be performed without turning over the long filament 4 when the work 3 is connected.

As described above, in the present invention, the inner lead and the outer lead are connected to different side surfaces with respect to the metal foil in the sealing portion, whereby the adhesion portion between the glass and the metal foil in the sealing portion. Therefore, even if the length of the sealing portion is shortened, sufficient airtightness is maintained, and the entire filament lamp can be shortened. This is an effect.
Further, since the internal leads at both ends of the filament are connected to the side surfaces on the same side of the metal foil in the sealing portion at both ends, connection work such as welding does not become unnecessarily complicated.

1 arc tube 2 sealing part 2a, 2b contact part 3 metal foil 5 internal lead 6 external lead

Claims (3)

Sealing portions are formed at both ends of the arc tube, and an internal lead connected to the end portion of the filament disposed inside the arc tube and a metal foil embedded in the seal portion are led out of the arc tube. In filament lamps connected to external leads,
The filament lamp, wherein the internal lead and the external lead are respectively connected to different side surfaces of the metal foil.   2. The filament lamp according to claim 1, wherein internal leads at both ends of the filament are connected to side surfaces on the same side of the respective metal foils in the sealing portions at both ends. The filament lamp according to claim 1, wherein the filament lamp is a heating light source for fixing toner.

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