JP3266186B2 - Discharge lamp - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a discharge lamp having a closure made of a functionally graded material.

[0002]

2. Description of the Related Art Conventionally, as a structure of a sealing portion of a discharge lamp, a foil sealing type using a sealing metal foil has been known. Recently, there has been proposed a means for forming a sealing portion by using a closing member made of a functionally graded material provided with an electrode member and sealing the closing tube portion of the valve to the closing member. ing.

FIG. 9 is an explanatory sectional view showing the structure of an example of a conventional discharge lamp having a closed body made of a functionally gradient material. In this discharge lamp, the bulb 10
Is made of, for example, silica glass, and is formed by integrally connecting sealing tube portions 12 extending in the axial direction to both ends of an elliptical spherical arc tube portion 11. A cylindrical closing body 20 made of a functionally graded material having an outer diameter compatible with the sealing tube 12 is arranged in the sealing tube 12 of the valve 10. The functionally gradient material constituting the closing body 20 is formed of a sintered body of a conductive inorganic material component and an insulating inorganic material component, and the concentration of the conductive inorganic material component changes in a gradient along the axial direction, As a result, an integrated material having both an insulating portion having a low concentration of the conductive inorganic substance component and having properties as an insulating material and an insulating section having a high concentration of the conductive inorganic substance component and having properties as a conductor It is. In the closing body 20, an insulating portion 21 is formed on the inner end side, and a conductive portion 22 is formed on the outer end side.
The sealing structure is formed by being welded to the zero insulating portion 21.

[0004] However, it has been found that such a discharge lamp has the following problems. (1) Since the temperature of the closing member 20 rises during the operation of the discharge lamp, a substance such as an insulating inorganic substance component or an oxide thereof in the functionally gradient material constituting the closing member 20 evaporates and is discharged to the outside. Is done. As a result, when the lamp device is constituted by the discharge lamp and the reflector, the reflector is contaminated by the evaporating substance from the closing body 20 of the discharge lamp.
There is a problem. (2) Since the functionally gradient material constituting the closing body 20 is fragile, there is a problem that the closing body 20 is broken when a large stress is applied to the closing body 20 directly or via the power supply member 35.

[0005]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
It is an object of the present invention to provide a discharge lamp having a closed body made of a functionally graded material, in which evaporative substances from the closed body are not released to the outside or less.
Another object of the present invention is to provide a discharge lamp capable of preventing breakage of a closed body.

[0006]

DISCLOSURE OF THE INVENTION The discharge lamp of the present invention comprises:
A valve having an arc tube portion and a sealing tube portion connected to both ends of the arc tube portion, and a cylindrical closing member disposed in the sealing tube portion of the bulb; Is formed of a functionally graded material having an insulating portion on the inner end side and a conductive portion on the outer end side, and the sealing tube portion of the valve is welded to the insulating portion of the closing body. A discharge lamp in which a sealing structure is formed,
A sleeve portion having an inner diameter larger than the outer diameter of the closing body is formed at each outer end of the sealing tube portion of the valve so as to extend outward in the axial direction.

In the discharge lamp of the present invention, it is preferable that L1 ≦ L2, where L1 is the axial dimension of the sealing tube portion of the bulb and L2 is the axial dimension of the sleeve portion.

In the present invention, it is preferable that the sleeve portion of the valve is formed so as to extend beyond the outer end of the closing body. In such a discharge lamp, a rod-shaped power supply member provided to extend outward in the axial direction from the outer end of the closed body, and a power supply member for holding the power supply member on the inner surface of the sleeve portion of the bulb. It may have a support member. In addition, the valve has a rod-shaped power supply member provided to extend outward along the axial direction from an outer end of the closing body, and the valve has the power supply member by closing an outer end of a sleeve portion. A holding portion for holding may be formed. In addition, the power supply member includes a rod-shaped power supply member provided to extend outward in the axial direction from the outer end of the closing body, and a filler provided between the power supply member and the sleeve of the valve. Is also good.

Further, in the discharge lamp of the present invention, a base may be provided on a sleeve portion of the bulb.

[0010]

According to the discharge lamp of the present invention, since the sleeve portion is formed at the outer end of the sealing tube portion of the bulb, during the operation of the discharge lamp, evaporative substances from the closed body are removed from the sleeve portion. As a result of adhering to the inner surface, release of the evaporating substance to the outside is suppressed. Further, by holding a rod-shaped power supply member extending outward in the axial direction from the outer end of the closing body to the sleeve portion of the valve or a holding portion formed at the outer end of the sleeve portion, the power supply member is provided. Even if a considerably large stress is applied, the load acting on the closing body is small, and as a result, breakage of the closing body is prevented.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the discharge lamp according to the present invention will be described. [First Embodiment] FIG. 1 is an explanatory sectional view showing the structure of a discharge lamp according to a first embodiment of the present invention.
In this discharge lamp, the bulb 10 is made of, for example, silica glass, and a sealing tube portion 12 extending in the axial direction is integrally connected to both ends of an elliptical spherical arc tube portion 11. A sleeve portion 13 having an inner diameter larger than an outer diameter of a closing body 20 described later is provided at each outer end of the portion 12.
Are integrally formed so as to extend outward along the axial direction.

A cylindrical closing body 20 made of a functionally graded material having an outer diameter suitable for the sealing tube 12 is disposed in the sealing tube 12 and the sleeve 13 of the valve 10. . The functionally graded material constituting the closing body 20 is made of a sintered body of a conductive inorganic material component and an insulating inorganic material component, and the concentration of the conductive inorganic material component changes from one end to the other in a gradient, As a result, an integrated material having both a conductive portion having a high concentration of the conductive inorganic substance component and having properties as a conductor and an insulating section having a low concentration of the conductive inorganic substance component and having properties as an insulating material It is. In the present invention, the concentration of the conductive inorganic substance component in the closed body 20 increases from the inner end side to the outer end side, whereby the insulating portion 21 is formed on the inner end side of the closed body 20. A conductive portion 22 is formed on the outer end side of the closing body 20. The conductive inorganic substance component concentration at the inner end of the closing body 20 is substantially 0% by volume, and the conductive inorganic substance component concentration at the outer end of the closing body 20 is, for example, 50% by volume. Here, as the conductive inorganic substance component, for example, metals such as molybdenum, nickel, tungsten, tantalum, chromium, platinum, and zinc, molybdenum silicide, molybdenum carbide, and tantalum carbide can be used. As the insulating inorganic substance component, silica glass,
Quartz (SiO ₂ ), alumina (AlO ₃ ), titanium carbide, silicon nitride (Si ₃ N ₄ ), aluminum oxynitride (AlON), or the like can be used. The sealing tube 12 of the valve 10 is connected to the insulating portion 21 of the closing body 20.
To form a sealing structure.

The closed body 20 is formed with a bottomed hole extending in the axial direction from the inner end surface thereof. The base end of an electrode rod 30 made of, for example, tungsten is inserted into the bottomed hole. The distal end of the electrode rod 30 is fixed in a state of being located in the arc tube part 11 of the bulb 10. An electrode 31 is formed at the tip of the electrode rod 30 by winding a coil made of, for example, tungsten. Further, a bottomed hole extending in the axial direction from the end surface is formed at the outer end of the closing body 20, and a rod-shaped power supply member 35 extending outward is inserted into the bottomed hole and fixed. Have been.

In the valve 10, when the axial dimension of the sealing tube 12 is L1 and the axial dimension of the sleeve 13 is L2, it is preferable that L1 ≦ L2. When the dimension L2 of the sleeve portion 13 is smaller than the axial dimension L1 of the sealing tube portion 12, during the operation of the discharge lamp, the sleeve portion 13 extends outward from the outer end of the sealing tube portion 12 of the bulb 10. Since a large temperature gradient is generated toward the outside, a large thermal stress is applied to the outer end of the sealing tube portion 12, so that a problem such as a crack is likely to occur.

An example of specific specifications of the above-mentioned discharge lamp is as follows. [Bulb 10] Arc tube part 11: axial length 10.5 mm, maximum inner diameter 4.5 mm, sealing tube part 12: axial length 3 mm, inner diameter 3 mm, sleeve part 13: axial length 7mm, 3.4m inside diameter
m, [Occlusion body 20] Axial length 13 mm, diameter 3 mm, [Electrode 30] Axial length (total length including a portion embedded in the occlusion body 20) 13 mm, diameter 0.6 mm, [Power supply Member 35] Length in the axial direction (total length including the portion embedded in the closing body 20) 10 mm, diameter 0.6 mm, [Lamp characteristics] lamp voltage 65.5 V, lamp current 2.
29A

According to the above-described discharge lamp, since the sleeve portion 13 is formed at the outer end of the sealing tube portion 12 of the bulb 10, the closing member 20 is turned on during the operation of the discharge lamp.
Even if a substance such as a conductive inorganic substance component or an oxide thereof in the functionally graded material constituting the above evaporates from the closing body 20, a part of the substance adheres to the inner surface of the sleeve portion 13,
It is possible to suppress the evaporation substance from being released to the outside. Therefore, it is possible to obtain a lamp device in which the reflection mirror is prevented from being contaminated by the evaporative substance from the closing member 20 by the discharge lamp and the reflection mirror.

[Second Embodiment] FIG. 2 is an explanatory sectional view showing the structure of a discharge lamp according to a second embodiment of the present invention. In this discharge lamp, the sleeve portion 13 of the bulb 10 is formed to extend beyond the outer end of the closing body 20. Other configurations are the same as those of the discharge lamp shown in FIG.

An example of the specific specifications of the above-mentioned discharge lamp is as follows. [Bulb 10] Arc tube part 11: axial length 10.5 mm, maximum inner diameter 4.5 mm, sealing tube part 12: axial length 3 mm, inner diameter 3 mm, sleeve part 13: axial length 15mm, 3.4m inside diameter
m, [Occlusion body 20] Axial length 13 mm, diameter 3 mm, [Electrode 30] Axial length (total length including a portion embedded in the occlusion body 20) 13 mm, diameter 0.6 mm, [Power supply Member 35] Length in the axial direction (total length including the portion embedded in the closing body 20) 10 mm, diameter 0.6 mm, [Lamp characteristics] lamp voltage 61.8 V, lamp current 2.
43A

According to such a discharge lamp, the bulb 1
Since the sleeve portion 13 is formed so as to extend beyond the outer end of the closing body 20, most of the evaporating substance from the closing body 20 adheres to the inner surface of the sleeve section 13, so that the evaporating substance is Can be further suppressed. In addition, since the closing body 20 is protected by the sleeve portion 13 of the valve 10, external stress is not directly applied to the closing body 20.
Can be reduced.

[Third Embodiment] FIG. 3 is an explanatory view showing the structure of a discharge lamp according to a third embodiment of the present invention. FIG. 3A is a longitudinal sectional view, and FIG. (B) is a diagram showing the sleeve portion of the valve and the inside thereof. In this discharge lamp, the sleeve portion 13 of the bulb 10 is formed so as to extend beyond the outer end of the closing body 20, and the power supply member 3
5 is provided with a ring-shaped support member 40 for holding the power supply member 35 on the inner surface of the sleeve portion 13 at a position located in the sleeve 13 of the valve 10. Other configurations are the same as those of the discharge lamp shown in FIG.

According to such a discharge lamp, the same effects as those of the discharge lamp shown in FIG. 2 can be obtained, and the power supply member 35 is held on the inner surface of the sleeve portion 13 via the support member 40. Even if a considerably large stress is applied to the power supply member 35, the load acting on the closing body 20 is small, and as a result, breakage of the closing body 20 can be prevented.

[Fourth Embodiment] FIG. 4 is an explanatory sectional view showing the structure of a discharge lamp according to a fourth embodiment of the present invention. In this discharge lamp, the sleeve portion 13 of the bulb 10 is formed so as to extend beyond the outer end of the closing body 20, and the outer end of the sleeve portion 13 is closed by the opening of the outer end to supply the power supply member. The holding portion 14 for holding the holding member 35 is formed. Others are shown in Fig. 1.
Has the same configuration as the discharge lamp shown in FIG.

According to such a discharge lamp, the bulb 1
Since the outer end of the zero sleeve portion 13 is closed by the holding portion 14, it is possible to prevent the evaporative substance from the closing body 20 from being released to the outside. Therefore, the reflecting mirror and the reflecting mirror allow the reflecting mirror to be closed.
And a lamp device that is not contaminated by evaporating substances from the lamp. The power supply member 35 is connected to the valve 10.
Therefore, even if a considerably large stress is applied to the power supply member 35, the load acting on the closing body 20 is small, and as a result, breakage of the closing body 20 can be prevented. .

[Fifth Embodiment] FIG. 5 is an explanatory sectional view showing the structure of a discharge lamp according to a fourth embodiment of the present invention. In this discharge lamp, the sleeve portion 13 of the bulb 10 is formed so as to extend beyond the outer end of the closing body 20, and a filler is provided between the power supply member 35 and the sleeve portion 13 of the bulb 10 so as to close the gap. 15 are provided. Other configurations are the same as those of the discharge lamp shown in FIG. As a material of the filler 15, an inorganic adhesive having heat resistance can be used.

According to such a discharge lamp, the filling material 1 is provided between the power supply member 35 and the sleeve portion 13 of the bulb 10.
Since the opening of the sleeve portion 13 is closed by the filler 15 due to the provision of the
It is possible to prevent evaporating substances from zero from being released to the outside. Therefore, a lamp device in which the reflector is not contaminated by the evaporating substance from the closing member 20 can be obtained by the discharge lamp and the reflector. Further, the power supply member 35 is connected to the sleeve portion 13 via the filler 15.
Therefore, even if a considerably large stress is applied to the power supply member 35, the load acting on the closing body 20 is small, and as a result, breakage of the closing body 20 can be prevented.

[Sixth Embodiment] FIG. 6 is an explanatory sectional view showing the structure of a discharge lamp according to a sixth embodiment of the present invention. In this discharge lamp, a bottomed cylindrical base 45 having an inner diameter adapted to the outer diameter of the sleeve 13 of the bulb 10 or a slightly larger inner diameter is fitted into the sleeve portion 13 at one end of the bulb 10. , For example, is fixed by an adhesive. Power supply member 3
A power supply line 47 is connected to the outer end of the power supply line 5, and the power supply line 47 is connected to a power supply line introduction hole 46 formed at the bottom of the base 45.
Has been inserted. Other configurations are the same as those of the discharge lamp shown in FIG. The base 45 can be made of ceramic or metal.

According to such a discharge lamp, the same effects as those of the discharge lamp shown in FIG.
Since the closing body 20 and the power supply member 35 are protected by the base 45 provided on the sleeve portion 13 of the No. 0, no external stress is applied to them, and as a result,
The breakage of the closing body 20 can be prevented.

[Seventh Embodiment] FIG. 7 is an explanatory sectional view showing the structure of a discharge lamp according to a seventh embodiment of the present invention. In this discharge lamp, the sleeve portion 13 of the bulb 10 is formed so as to extend beyond the outer end of the closing body 20 and further beyond the outer end of the power supply member 35. A bottomed cylindrical base 45 having an inner diameter matching or slightly larger than the outer diameter of the sleeve 13 is fitted to the sleeve portion 13,
Furthermore, it is provided fixed by, for example, an adhesive. A power supply line 47 is connected to the outer end of the power supply member 35, and the power supply line 47 is inserted into a power supply line introduction hole 46 formed at the bottom of the base 45. Other configurations are the same as those of the discharge lamp shown in FIG.

According to such a discharge lamp, the same effects as those of the discharge lamp shown in FIG.
Since the closing body 20 and the power supply member 35 are protected by the base 45 provided on the sleeve portion 13 of the No. 0, no external stress is applied to them, and as a result,
The breakage of the closing body 20 can be prevented.

[Lamp Apparatus] FIG. 8 is an explanatory sectional view showing the structure of an example of a lamp apparatus having a discharge lamp according to the present invention. This lamp device includes a discharge lamp shown in FIG. 7 and a concave reflecting mirror 5 for reflecting light from the discharge lamp.
0. More specifically, the concave reflecting mirror 50
Has, for example, a parabolic light reflecting portion 51, and a cylindrical neck portion 52 is integrally formed at the center bottom of the light reflecting portion 51 along the axial direction of the concave reflecting mirror 50. ing. The concave reflecting mirror 50 is provided with a front glass 53 so as to cover the opening. Then, the sleeve 13 of the bulb 10 of the discharge lamp is inserted into the cylindrical hole of the neck 52 of the concave reflecting mirror 50, and the base 45 of the discharge lamp is inserted.
However, the concave reflecting mirror 50 is
Is fixed to the neck 52 of the head. According to such a lamp device, it is possible to suppress the light reflecting portion 51 of the concave reflecting mirror 50 from being contaminated by the evaporated substance from the closing body 20 of the discharge lamp.

[0031]

According to the discharge lamp of the first aspect,
Since the sleeve portion is formed at the outer end of the bulb portion for sealing the bulb, during the operation of the discharge lamp, a component such as a component or an oxide thereof in the functionally gradient material constituting the closed body causes the closed portion to be closed. Even if the substance evaporates from the body, a part of the substance adheres to the inner surface of the sleeve part, so that the evaporating substance can be prevented from being released to the outside. Therefore, with such a discharge lamp and a reflecting mirror, it is possible to obtain a lamp device in which the reflecting mirror is suppressed from being contaminated by evaporating substances from the closing body.

According to the discharge lamp of the second aspect, the effect of the discharge lamp of the first aspect is obtained, and at the same time, a large thermal stress is suppressed from being applied to the outer end of the sealing tube of the bulb. Therefore, it is possible to prevent problems such as cracks from occurring in the sealing tube portion of the valve.

According to the third aspect of the present invention, since the sleeve portion of the bulb is formed so as to extend beyond the outer end of the closing member, most of the evaporative substance from the closing member is formed in the sleeve portion. As a result of adhering to the inner surface, it is possible to further suppress the emission of the evaporated substance to the outside. Also,
Since the closure is protected by the sleeve of the valve, external stress is not directly applied to the closure,
As a result, it is possible to reduce the chance that the closing body is broken.

According to the discharge lamp of the fourth aspect, the effect of the discharge lamp of the third aspect is obtained, and the power supply member is held on the inner surface of the sleeve portion via the support member. Even if a considerably large stress is applied to the power supply member, the load acting on the closing body is small, and as a result, breakage of the closing body can be prevented.

According to the discharge lamp of the present invention, since the outer end of the sleeve portion of the bulb is closed by the holding portion, it is possible to prevent the evaporative substance from the closed body from being released to the outside. it can. Therefore, with such a discharge lamp and a reflecting mirror, it is possible to obtain a lamp device in which the reflecting mirror is not contaminated by evaporating substances from the closing body. Further, since the power supply member is held by the holding portion of the valve, even if a considerably large stress is applied to the power supply member, the load acting on the closing body is small, and as a result, breakage of the closing body is prevented. Can be.

According to the discharge lamp of the sixth aspect, since the filler is provided between the power supply member and the sleeve of the bulb, the opening of the sleeve is closed by the filler. In addition, it is possible to prevent the evaporative substance from the closing body from being released to the outside. Further, since the power supply member is held on the inner surface of the sleeve portion via the filler, even when a considerably large stress is applied to the power supply member, the load acting on the closing body is small, and as a result, the closing body Damage can be prevented.

According to the discharge lamp of the present invention, the effect of the discharge lamp of the present invention is obtained, and the closing member and the power supply member are protected by the base provided on the sleeve of the bulb. Therefore, external stress is not applied to these, and as a result, breakage of the closing body can be prevented.

[Brief description of the drawings]

FIG. 1 is an explanatory sectional view showing a configuration of a discharge lamp according to a first embodiment of the present invention.

FIG. 2 is an explanatory sectional view showing a configuration of a discharge lamp according to a second embodiment of the present invention.

FIGS. 3A and 3B are explanatory views showing a configuration of a discharge lamp according to a third embodiment of the present invention, wherein FIG. 3A is a longitudinal sectional view, and FIG. 3B is a view showing a sleeve portion of a bulb and the inside thereof. .

FIG. 4 is an explanatory sectional view showing a configuration of a discharge lamp according to a fourth embodiment of the present invention.

FIG. 5 is an explanatory sectional view showing a configuration of a discharge lamp according to a fifth embodiment of the present invention.

FIG. 6 is an explanatory sectional view showing a configuration of a discharge lamp according to a sixth embodiment of the present invention.

FIG. 7 is an explanatory sectional view showing a configuration of a discharge lamp according to a seventh embodiment of the present invention.

FIG. 8 is an explanatory cross-sectional view showing a configuration of a shield beam lamp device provided with a discharge lamp of the present invention.

FIG. 9 is an explanatory cross-sectional view showing a configuration of a conventional discharge lamp having a closed body made of a functionally gradient material.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Bulb 11 Emission tube part 12 Sealing tube part 13 Sleeve part 14 Holding part 15 Filler 20 Closure body 21 Insulated part 22 Conductive part 30 Electrode rod 31 Electrode 35 Power supply member 40 Support member 45 Base 46 Power supply line introduction hole 47 Power supply line 50 Concave reflector 51 Light reflector 52 Neck 53 Front cover 54 Adapter for mounting

──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Masanobu Komiya 1194 Sado Bessho-cho, Himeji-shi, Hyogo Ushio Electric Co., Ltd. (56) References JP-A-8-138555 (JP, A) JP-A-9-115484 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H01J 61/36 H01K 1/38

Claims (7)

(57) [Claims] 1. A bulb having an arc tube portion and a sealing tube portion connected to both ends of the arc tube portion, and a cylindrical closing member disposed in the sealing tube portion of the bulb. Wherein the closing body is made of a functionally graded material having an insulating portion on the inner end side and a conductive portion on the outer end side, and a sealing tube portion of the valve is provided on the insulating portion of the closing body. A discharge lamp in which a sealing structure is formed by welding, wherein a sleeve portion having an inner diameter larger than an outer diameter of the closing body is provided at an outer end of each of the sealing tube portions of the bulb in an axial direction. A discharge lamp formed so as to extend outward along the discharge lamp. 2. The discharge lamp according to claim 1, wherein L1 ≦ L2, where L1 is the axial dimension of the sealing tube portion and L2 is the axial dimension of the sleeve portion. 3. The discharge lamp according to claim 1, wherein the sleeve portion is formed to extend beyond an outer end of the closing body. 4. A rod-shaped power supply member extending outward in the axial direction from an outer end of the closing body, and a support member for holding the power supply member on an inner surface of a sleeve portion of the valve. The discharge lamp according to claim 3, comprising: 5. A power supply member having a rod-like shape provided to extend outward in the axial direction from an outer end of the closing body. The power supply member is provided in the valve by closing an outer end of a sleeve portion. The discharge lamp according to claim 3, wherein a holding portion for holding the discharge lamp is formed. 6. A rod-shaped power supply member extending outward in the axial direction from an outer end of the closing body, and a filler provided between the power supply member and a sleeve of the valve. The discharge lamp according to claim 3, wherein: 7. The discharge lamp according to claim 1, wherein a base is provided on a sleeve portion of the bulb.