JPH0567455A - Light source apparatus - Google Patents

Abstract

PURPOSE:To extend the life of a lamp by forming a ventilation route in the circumference of a sealing part. CONSTITUTION:Since ventilation holes 17a, 17b are communicated with outside of a base 20 and a reflecting mirror 1 through a through hole 26, in the case that air convection occurs based on the temperature difference in the surrounding, the air outside of an apparatus circulates in the inside of a cylindrical part 3 and air flows in the surrounding of a sealing part 6 wrapped with an adhesive 14. The air flow cools the surrounding of the sealing part 6 forcedly and thus over heating is prevented. In this way, the sealing part of a metal foil conductor 7b is kept properly airtight and the life of a halogen lamp 4 is extended.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light source device having a halogen bulb fixed to a base with a base or a reflecting mirror.

[0002]

2. Description of the Related Art A light source device using a small halogen bulb is known as a light source used for spot lighting or accent lighting in stores and studios.

This light source device is referred to as "Actual Development Showa 47-1489".
As disclosed in Japanese Unexamined Patent Publication No. 3), it is composed of a ceramic base having a base at one end and a one-side sealed halogen bulb fixed to the base. An opening is formed in the base on the side opposite to the base, and a sealing portion at one end of the halogen bulb is inserted inside the opening. Then, in the opening, a heat-resistant adhesive is filled so as to wrap the sealing portion,
The halogen bulb and the base are integrally fixed by this adhesive.

[0004]

By the way, a molybdenum foil conductor for electrically connecting the electrode and the external lead wire is hermetically sealed in the sealing portion of the halogen bulb.
Since the sealing part of this halogen bulb is heated to a high temperature by the heat of the electrodes during lighting, if the sealing part is wrapped with an adhesive as described above, the heat dissipation of this sealing part Becomes extremely bad, and the temperature of the sealing portion becomes a high temperature of 350 ° C. or higher. In particular, when the base is turned upward and vertically lit, heat is concentrated around the sealing portion, so that the temperature of the sealing portion may rise to around 370 ° C.

Then, since the external lead wire and the quartz glass forming the sealing portion have different coefficients of thermal expansion, a gap is created between the sealing portion and the external lead wire, and the molybdenum foil is formed through this gap. It is directly exposed to air.

For this reason, the oxidation of the molybdenum foil gradually progresses during lighting, and the airtightness of the sealed portion of the molybdenum foil is impaired, so that air flows into the halogen bulb and the life of the halogen bulb is shortened. Such a problem occurs.

The present invention has been made under these circumstances, and it is possible to suppress overheating of the sealing portion as much as possible.
An object of the present invention is to provide a light source device capable of achieving a long lamp life.

[0008]

Therefore, in claim 1 of the present invention, a crushed sealing portion is provided at the end of the glass bulb, and a metal foil conductor connected to the lead wire is sealed in the sealing portion. The stopped lamp, the tubular portion into which the sealed portion of the lamp is inserted, and the inside of the tubular portion is filled so as to wrap the sealed portion of the lamp, and the lamp is placed in the tubular portion. An adhesive for fixing is provided, and a ventilation passage is provided around the sealing portion, the ventilation passage being opened to the outside of the cylindrical portion and allowing air to flow therethrough. According to a second aspect of the present invention, the tubular portion is provided in a base having a base, and the base is provided with a through hole for communicating the inside and the outside of the base. In claim 3,
The ventilation passage is formed at a position closer to the peripheral surface of the sealing portion than the inner surface of the tubular portion.

[0009]

According to the structure described in claim 1, during lighting of the lamp, air convection is generated around the lamp due to a temperature difference due to lighting, so that the convection air flows into the ventilation passage. Therefore, since air flows inside the tubular portion, the air around the sealing portion is forcibly cooled by this air flow, and the sealing portion is wrapped with the adhesive, but the sealing portion Can be prevented from overheating. Therefore, the airtightness of the sealed portion of the metal foil conductor can be favorably maintained for a long time, and the life of the lamp is extended.

According to the structure described in claim 2, even if one end side of the tubular portion is closed by the mouthpiece, air flows into the inside of the base through the through hole. Therefore, if convection occurs around the lamp, the air outside the device will circulate inside the tubular portion through the ventilation passage from the through hole, and the area around the sealing portion can be forcibly cooled. it can.

According to the third aspect of the present invention, when the air passes through the inside of the tubular portion, this air flow passes through the position close to the sealing portion. The cooling effect of can be enhanced.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to FIGS.
I will explain based on.

The reflecting mirror indicated by reference numeral 1 in the drawing is made of, for example, a glass material, and is formed in a parabolic cross section having an opening 2 for projecting light at one end. At the center of the reflector 1,
A cylindrical portion 3 is provided so as to extend on the side opposite to the opening 2. The tubular portion 3 has a hollow cylindrical shape, and the tubular portion 3 is opened at the central portion of the reflecting mirror 1.

A front glass 15 is attached to the opening 2 of the reflecting mirror 1. In the case of the present embodiment, a gap 16 for communicating the inside and outside of the reflecting mirror 1 is partially provided between the front lens 15 and the peripheral edge of the opening 2 as shown in FIG.

A halogen bulb 4 is housed inside the reflecting mirror 1. The halogen bulb 4 has an elongated bulb 5 made of quartz glass. The valve 5 is a single-sealing type having a hermetically crushed sealing portion 6 at one end, and a small amount of halogen substance and a predetermined amount of inert gas are enclosed in the valve 5. A pair of metal foil conductors 7a and 7b made of molybdenum foil and external lead wires 8a and 8b connected to the metal foil conductors 7a and 7b are provided in the sealing portion 6 of the valve 5.
The inner lead wires 9a and 9b are hermetically sealed. The external lead wires 8 a and 8 b penetrate the end surface of the sealing portion 6 and are led out to the outside of the valve 5. Further, the internal lead wires 9a and 9b are introduced inside the valve 5,
A filament 10 is connected between the internal lead wires 9a and 9b. Coil part 1 of filament 10
0a extends along the axial direction of the valve 5, and the intermediate portion of the coil portion 10a is supported by the anchor wire 11.

The inner lead wires 9a and 9b, the filament 10 and the anchor wire 11 are made of tungsten or molybdenum. In this case, as shown in FIG. 4, both ends of the filament 10 except the coil portion 10a, the internal lead wires 9a and 9b, and the anchor wire 11 are used.
The peripheral surface of a relatively low temperature portion such as the valve 5 is covered with a metal oxide film 12. Metal oxide film 1
2 is a filament 10 or internal lead wires 8a, 8b, such as Al ₂ O ₃ , MgO or SiO _2.
A metal oxide other than the metal forming the is used.

Thus, by covering the peripheral surface of the relatively low temperature portion in the bulb 5 with the metal oxide film 12, even if the halogen substance in the bulb 5 becomes excessive, the internal lead wire due to the halogen substance is formed. 8a, 8b, filament 10
It is possible to prevent erosion of both ends and the anchor wire 11.

That is, the appropriate amount of the halogen substance enclosed is
It is determined by the evaporation amount of tungsten from the filament 10, and this evaporation amount of tungsten changes depending on the lighting voltage of the halogen bulb 4. For this reason, in the normal halogen light bulb 4, the halogen substance is enclosed in the bulb 5 in an amount such that the halogen cycle is most efficiently performed at the rated lighting. However, recently, there is an increasing demand for dimming in this type of halogen bulb 4. When the halogen bulb 4 is turned on at a rated voltage or less, the equilibrium state of the halogen cycle is lost, the amount of the halogen substance enclosed becomes excessive with respect to the amount of tungsten evaporated, and the above-described erosion phenomenon occurs.

However, as described above, the internal lead wire 8
If the peripheral surfaces of the low temperature portion such as a, 8b, both ends of the filament 10 and the anchor wire 11 in the bulb 5 are covered with the metal oxide film 12, the reaction between the low temperature portion and the halogen substance is blocked. be able to. As a result, it is possible to suppress the erosion of the low temperature part by the halogen substance and prevent the disconnection due to the progress of the erosion.

By the way, such a halogen bulb 4 is
The end portion including the sealing portion 6 is inserted into the tubular portion 3. The insertion front end surface of the sealing portion 6 penetrates the tubular portion 3 and is led out to the outside. An adhesive 14 is filled between the inner surface of the tubular portion 3 and the sealing portion 6. Adhesive 1
For example, a heat-resistant inorganic adhesive containing Al ₂ O ₃ or SiO ₃ as a main component is used as the adhesive 4.
4 encloses the sealing portion 3.

Therefore, the halogen light bulb 4 has the adhesive 1
It is fixed to the reflecting mirror 1 via 4 and the emission center of this halogen bulb 4 is located at the focal point of the reflecting mirror 1. The adhesive 14 is provided with a pair of ventilation holes 17a and 17b that form a ventilation passage after curing. Vent 17
a and 17b, as shown in FIG. 1 and FIG.
Penetrates the adhesive 14 along the axial direction of
Are located on both sides in the thickness direction. Vent holes 17a, 1
Both ends of 7b are adhesive 1 exposed inside the tubular portion 3.
4 is formed on the surface of the air vent holes 17a, 17
The open end of b is connected to the outside of the tubular portion 3 and the inside of the reflecting mirror 1. The diameter of the ventilation holes 17a and 17b depends on the sizes of the sealing portion 6 and the tubular portion 3, but is 0.5 m.
It is desirable to set it to m or more.

A ceramic base 20 is provided on the tubular portion 3 of the reflecting mirror 1. The base 20 includes a base body 21 having a cylindrical shape and a mouthpiece attachment portion 22 that is coaxially projected from the base body 21. The base body 21 has an insertion hole 23 into which the tip of the tubular portion 3 is inserted.
Is formed, and the cylindrical portion 3 is formed on the bottom surface 23a of the insertion hole 23.
The tip surface of is in contact. Then, the tubular portion 3 has the adhesive 2
It is fixed in the insertion hole 23 through 7.

Inside the base attachment portion 22, the insertion passage 2
4 are formed. The end portion of the insertion passage 24 on the base body 21 side is enlarged in diameter as it goes to the base body 21 side, and the enlarged diameter portion 25 is opened at the center of the bottom surface 23 a of the insertion hole 23. As shown in FIG. 1, the opening portion of the expanded diameter portion 25 faces the sealing portion 6 and the adhesive agent 14 that fixes the sealing portion 6, and the expanded hole portion 25 has the vent holes 17a, One end of 17b is opened. The base attachment portion 22 is formed with a through hole 26 which is continuous with the enlarged diameter portion 25 of the insertion passage 24, and the diameter of the through hole 26 is 0.
It is set to 5 mm or more.

Therefore, one end of the vent holes 17a and 17b formed in the adhesive 14 is connected to the outside of the base 20 through the enlarged diameter portion 25 of the insertion passage 24 and the through hole 26, and the vent hole is formed. The other ends of 17 a and 17 b are connected to the outside of the reflecting mirror 1 from the inside of the reflecting mirror 1 through the gap 16.

A cap shell 28 is provided on the outer peripheral surface of the cap mounting portion 22. The mouthpiece shell 28 is fixed to the mouthpiece attachment portion 22 by being caulked at two portions of the opening edge that face each other in the radial direction. To describe this fixing structure in detail, as shown in FIG. 2, a pair of caulking holes 29a and 29b are opened at two locations on the outer peripheral surface of the mouthpiece attachment portion 22 that face each other. The caulking holes 29 a and 29 b penetrate the base attachment portion 22 in the radial direction and are continuous with the insertion passage 24. Then, the opening edge of the mouthpiece shell 28 is pushed into the caulking holes 29a and 29b by caulking.
30b is locked in the caulking holes 29a and 29b.

In the insertion passage 24 of the base attachment portion 22,
A pair of conducting wires 31a, 31b connected to the external lead wires 8a, 8b of the halogen bulb 4 are inserted and arranged. One of the conducting wires 31a passes through the through hole 26, and the base attachment portion 22
Of the cap shell 28.
Is soldered to the opening edge. The other conductor 31b
Is guided to the tip of the mouthpiece attachment portion 22 through the insertion passage 24, and is soldered to the eyelet terminal 32 at the tip of the mouthpiece attachment portion 22. And
Since the other conducting wire 31b passes between the caulking holes 29a, 29b, in the present embodiment, the portion 33 which is continuous with the external lead wire 8b at the position where the conducting wire 31b intersects the axis of the caulking holes 29a, 29b. And a portion 34 connected to the eyelet terminal 32, and the divided ends are connected by a fuse wire 35. From this, the caulking portions 30a and 30b of the cap shell 28 face the fuse wire 35 through the caulking holes 29a and 29b.

In the light source device having such a structure, the adhesive 14 for fixing the halogen bulb 4 to the tubular portion 3 of the reflecting mirror 1 is provided.
Is formed with vent holes 17a, 17b extending in the axial direction of the tubular portion 3, and openings at both ends of these vent holes 17a, 17b are
The space inside the reflecting mirror 1 and the insertion passage 24 of the base 20 communicate with each other. The space inside the reflecting mirror 1 is communicated with the outside of the reflecting mirror 1 through a gap 16 between the reflecting mirror 1 and the front glass 15, and the insertion passage 2
4 communicates with the outside of the base 20 through a through hole 26.

Therefore, since the ventilation holes 17a and 17b are connected to the outside of the reflecting mirror 1 and the base 20 through the gap 16 and the through hole 26, when the halogen bulb 4 is turned on, the convection of the air due to the temperature difference occurs around the halogen bulb 4. 2 occurs, the air outside the device circulates inside the tubular portion 3 through the gap 16, the ventilation holes 17a and 17b, and the through hole 26, as indicated by the arrow in FIG. Air circulates around the sealing portion 6 surrounded by 14.

Therefore, due to this air flow, the sealing portion 6
The surroundings can be forcibly cooled, and overheating of the sealing portion 6 can be prevented. From this, the metal foil conductors 7a, 7b
The airtightness of the sealed portion can be maintained well, and the life of the halogen bulb 4 is extended accordingly.

In particular, the diameters of the ventilation holes 17a and 17b are much smaller than the space inside the reflecting mirror 1, so that the base 2
When 0 is turned upward and vertically lit, the air flow path from the inside of the reflecting mirror 1 to the ventilation holes 17a and 17b in the base 20 has a tapered shape. For this reason,
The flow velocity at the time when the air passes through the ventilation holes 17a and 17b becomes faster, and the cooling efficiency around the sealing portion 6 can be improved. Therefore, even in the case of vertical lighting in which the temperature of the sealing portion 6 becomes high, there is an advantage that the overheating of the sealing portion 6 can be reliably prevented.

The present inventor manufactured a light source device using the halogen bulb 4 of 12V100W and conducted a test to measure the temperature of the sealing portion 6 when the base 20 was turned on and turned on. .. As a result, in the conventional light source device in which the sealing portion 6 is densely wrapped with the adhesive 14, the temperature of the sealing portion 6 reaches 370 ° C., while the adhesive 14 has the inner diameter of 0.5 mm. When one pore is opened, the temperature of the sealing part 6 is 345 ° C, and the adhesive 14 has an inner diameter of 0.5 m.
When two ventilation holes of m are opened, the temperature of the sealing part 6 becomes 3
It became clear that the temperature dropped to 20 ° C. The reason for this is considered to be that an airflow is formed around the sealing portion 6, and this airflow enhances the heat dissipation effect of the sealing portion 6.

Further, in this embodiment, the caulking holes 29a and 29b for caulking the mouthpiece shell 28 radially penetrate the mouthpiece mounting portion 22 and the insertion passage 24 inside thereof.
Since the lead wire 31b and the caulking portions 30a and 30b arranged in the insertion passage 24 are connected to each other,
The positional relationship is such that they face each other via a and 29b. Therefore, when the filament 10 reaches the end of its life and breaks, a high current may flow between the conductor 31b and the caulking portions 30a and 30b, and an arc may occur.

However, in the above structure, the conductor 31
b is divided at the portion crossing the caulking holes 29a and 29b,
Since the divided ends are connected via the fuse wire 35, the caulked portions 30a and 30b face the fuse wire 35. From this, the filament 10
If a high current flows between the conductor wire 31b and the caulking portions 30a and 30b at the time of disconnection, the fuse wire 35 will be disconnected at the same time, and the conductor wire 31b and the caulking portion 30 will be disconnected.
The arc does not continue between a and 30b. As a result, overheating of the base shell 28 and the base 20 can be prevented,
It is possible to prevent damage to the base 20 due to this overheating.

Although the front glass 15 is attached to the opening 2 of the reflecting mirror 1 in the first embodiment, the front glass 15 may be omitted and the halogen bulb 4 may be exposed from the opening 2. good.

On the other hand, FIG. 5 shows a second embodiment of the present invention. The second embodiment mainly includes a halogen bulb 4
The structure for supporting the second embodiment is different from that of the first embodiment. In the second embodiment, the same components as those of the first embodiment are designated by the same reference numerals and the description thereof will be omitted. To do.

As shown in FIG. 5, the halogen bulb 4 is supported by a ceramic base 40. Base 40
Is provided with a cylindrical tubular portion 41 having an opening at one end, and a base attachment portion 22 continuous with the tubular portion 41. Then, the sealing portion 6 of the halogen light bulb 4 is inserted into the cylindrical portion 41. The sealing portion 6 is fixed by an adhesive 14 filled in the tubular portion 41, and the adhesive 14 wraps the sealing portion 6. The adhesive 14 is provided with a single vent hole 42 having a diameter of 0.5 mm or more after curing. The vent hole 42 extends in the axial direction of the tubular portion 41, one end of which is opened to the exposed surface of the adhesive 14 to the outside, and the other end of which is formed between the tubular portion 41 and the insertion passage 24. It is opened to the communication part. Then, the ventilation hole 4 of this embodiment
2 is inclined so as to move closer to the distal end side of the sealing portion 6 and closer to the peripheral surface of the sealing portion 6 than the inner surface of the tubular portion 41.

Also in the second embodiment having such a configuration,
Since the air outside the apparatus circulates in the base 40 through the through holes 26 and the air holes 42, the air flow can forcibly cool around the sealing portion 6 wrapped with the adhesive 14.

Since the end of the ventilation hole 42 on the tip side of the sealing portion 6 is closer to the peripheral surface of the sealing portion 6 than the inner surface of the tubular portion 41, it passes through the ventilation hole 42. The sealing portion 6 can be efficiently cooled by air.

In each of the above-described embodiments, after the adhesive is hardened, the adhesive is provided with a vent hole, but the present invention is not limited to this, and for example, as shown by an imaginary line in FIG. A space portion 51a in which the adhesive is not filled in the inner portion of the shape portion 3,
51b is formed in advance, and the space portions 51a, 51
You may make it utilize b as a ventilation path.

[0040]

According to the first aspect of the present invention, the sealing portion of the lamp is forcibly cooled by the air flowing in the ventilation passage even though the sealing portion is wrapped with the adhesive. Therefore, the temperature of the sealing portion can be kept low. Therefore, the airtightness of the sealed portion of the metal foil conductor can be favorably maintained, and the life of the lamp is extended accordingly.

According to the second aspect of the invention, even if one end side of the tubular portion is closed by the mouthpiece, air flows into the inside of the base through the through hole, so that the air outside the apparatus can pass through the through hole. By circulating the inside of the tubular portion through the ventilation passage, it is possible to forcibly cool the periphery of the sealing portion. According to the configuration described in claim 3, since the airflow passes through the position close to the sealing portion, the sealing portion can be efficiently cooled.

[Brief description of drawings]

FIG. 1 is a sectional view of a light source device showing a first embodiment of the present invention.

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

3 is a sectional view taken along the line BB of FIG.

FIG. 4 is a cross-sectional view showing an enlarged part C of FIG.

FIG. 5 is a sectional view of a light source device showing a second embodiment of the present invention.

[Explanation of symbols]

3, 41 ... Cylindrical part, 4 ... Lamp (halogen bulb), 5 ...
Valve, 6 ... Sealing part, 7a, 7b ... Metal foil conductor, 8a,
8b, 9a, 9b ... Lead wire (external lead wire, internal lead wire), 14 ... Adhesive agent, 17a, 17b, 42 ... Ventilation passage (vent hole).

Claims (3)

[Claims] 1. A lamp having a crushed sealing portion at an end of a bulb, and a metal foil conductor connected to a lead wire is sealed in the sealing portion, and the sealing portion of the lamp is inserted. A tubular portion and an adhesive for filling the sealing portion of the lamp so as to wrap it inside the tubular portion and fixing the lamp to the tubular portion are provided. A light source device, characterized in that a ventilation passage, which is open to the outside of the cylindrical portion and through which air flows, is provided in the periphery. 2. The light source device according to claim 1, wherein the tubular portion is provided in a base having a base, and the base is provided with a through hole for communicating the inside and outside of the base. 3. The light source device according to claim 1, wherein the ventilation passage is formed at a position closer to the peripheral surface of the sealing portion than the inner surface of the tubular portion.