JP3149748B2 - Short arc 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 short arc discharge lamp used for an optical device such as a liquid crystal projector.

[0002]

2. Description of the Related Art In order to obtain high luminance and high color rendering, a metal halide lamp, which is a short arc discharge lamp, is suitably used as a backlight of an optical device such as a liquid crystal projector. In such an optical device, a concave reflector (hereinafter, referred to as a reflector) is used to control light emitted from the metal halide lamp, and one of the seals of the metal halide lamp is attached to the neck of the reflector. The metal halide lamp is fixed to the reflecting mirror by inserting an adhesive into the neck and inserting the stopper. A base is attached to a sealing portion of the metal halide lamp fixed to the neck of the reflecting mirror, and a rear end of the base projects from a rear end of the neck of the reflecting mirror, and a power supply terminal of the optical device. Attached to. On the other hand, an external lead rod projects from the other sealing portion, and a power supply lead wire is attached to the external lead rod.

Further, in order to enhance the startability of the metal halide lamp, a heat-resistant metal trigger wire is connected from an external lead rod projecting from one sealing portion not fixed to the neck portion of the reflector to the other sealing portion. Is fixed. In the case of AC lighting, when a trigger wire is stretched from an external lead rod protruding from one sealing portion to the other sealing portion, the trigger wire is connected between the sealing portion and the light emitting portion in the other sealing portion. It is common to wind and fix at the boundary part.

[0004]

On the other hand, in the case of DC lighting, a trigger wire is stretched from an external lead rod projecting from the cathode side sealing portion to the anode side sealing portion, and the trigger wire is passed through the anode side sealing portion. Are wound and fixed at the boundary between the sealing portion and the light emitting portion. However, in such a configuration, in the sealing portion that seals the anode, the corrosion of the quartz glass due to the DC electric field progresses, and a small hole may be formed in several hundred hours of lighting. As a result, the light emitting portion leaks, the airtightness in the light emitting portion is lost, and the light emitting portion is turned off,
There was a problem that the electrode was oxidized and the light emitting portion was blackened.

On the other hand, in order to improve such a phenomenon,
An attempt was made to shift the fixing position of the trigger wire of the anode-side sealing portion from the boundary between the light emitting portion and the sealing portion in the direction toward the end of the sealing portion and to fix the trigger wire. However, when a short arc type discharge lamp is used as a backlight for an optical device such as a liquid crystal projector, the anode-side sealing portion which is inserted and fixed to the neck portion of the reflector has a conductive power supply at its end. Sex base is attached. If the fixed position of the trigger wire is shifted toward the end of the sealing portion, the closer to the conductive base, the more the starting voltage of 10 kv to 15 kv is applied when the lamp is turned on. The insulation distance between
The problem of short circuit occurred.

Therefore, it is conceivable to increase the insulation distance between the trigger wire and the base by lengthening the sealing portion (in this case, the anode-side sealing portion) in which the trigger wire is wound and fixed. However, the length of the sealing portion extending to both of the light emitting portions is usually equal to the length of both sealing portions because each sealing portion is formed by the same pincher in order to simplify the sealing portion processing machine. They are about the same length. As a result, in a short arc type discharge lamp in which one sealing portion is inserted and fixed to the neck portion of the reflecting mirror and the other sealing portion extends in the opening direction of the reflecting mirror, it extends in the opening direction of the reflecting mirror. If the sealing portion is too long, there is a problem that light reflected from the reflecting mirror is blocked by the sealing portion.

When only the sealing portion inserted and fixed to the neck portion of the reflector is lengthened, the metal foil embedded in the sealing portion is easily bent in the sealing step, causing the electrode to be misaligned. Sometimes.

Further, in a short arc type discharge lamp used as a backlight of an optical device such as a liquid crystal projector, power consumption naturally falls within a certain range due to its use, whereby the tube wall load is determined and the size of the light emitting portion is increased. Is determined by a certain range. The length of the sealing portion is also determined so that the temperature is such that the metal foil embedded in the sealing portion is not oxidized. That is, as described above, an appropriate range is naturally derived for the length of the sealing portion and the size of the light emitting portion, and the short arc type discharge lamp is not easily sealed due to the conditions such as the focal length of the reflecting mirror. The length of the stop cannot be made extremely long. That is, the insulation distance between the trigger wire and the base cannot be increased under such conditions.

In an optical device in which one of the sealing portions is inserted into the neck of the reflector, the neck is filled with an adhesive, and the short arc discharge lamp is integrally assembled with the reflector, the rear end of the neck is The power supply terminal is connected to the base protruding from. At this time, a protrusion having a thread groove formed in the base was formed, a power supply terminal was fitted into the protrusion, and in this state, the terminal was connected and fixed to the base by rotating a nut. . However, when the nut is rotated to fix the terminal to the base, a rotating force is applied to the base, and the short arc discharge lamp fixed to the neck of the reflector with adhesive rotates, and the short arc discharge with the reflector is performed. There was a problem that the lamp was not fixed.

The present invention has been made based on the above circumstances, and a first object of the present invention is to provide a short arc type discharge by sufficiently securing an insulation distance between a trigger wire and a base attached to an end of a sealing portion. There is a short arc type discharge lamp in which a trigger wire and a base are not short-circuited when the lamp is turned on. A second object is to form a flat portion on the side peripheral surface of the base and / or the insulating member to connect and fix the power supply terminal to the base of the short arc type discharge lamp fixed to the neck of the reflecting mirror with an adhesive. The present invention provides a short arc type discharge lamp which can prevent the rotation of the lamp when performing the operation.

[0011]

In order to solve the above problems, a short arc type discharge lamp according to claim 1 is provided.
A cathode and an anode are arranged inside and a light emitting part, and a sealing part formed at an end of the light emitting part. A trigger wire connected to an external lead rod protruding from the cathode side sealing part is sealed on the anode side. In the short arc type discharge lamp wound and fixed at the stop portion, the anode-side sealing portion is provided with a conductive base at an end thereof, and is fitted to the base at the light emitting portion side of the base. An insulating member for holding the formed anode-side sealing portion is provided.

A short arc discharge lamp according to a second aspect of the present invention is the short arc type discharge lamp according to the first aspect, in which the base and / or the insulating member are preferably
It is characterized in that it has a flat portion on its side peripheral surface.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a short arc type discharge lamp according to the present invention will be described in detail. FIG. 1 is an explanatory diagram of a short arc type discharge lamp of the present invention. In this figure, a light emitting portion 1 made of quartz glass forms a circular rotating body, and a cathode 2 and an anode 3 are arranged inside thereof in a facing manner. Then, the sealing portions 4a, 4b at both ends of the arc tube 1
The cathode 2 and the anode 3 are connected to external lead rods 6 via molybdenum metal foils 5a and 5b, respectively. The external lead rod on the anode side is not shown. A trigger wire 7 made of heat-resistant iron-chrome wire is connected to the external lead rod 6 on the cathode side by winding, and the other end of the trigger wire 7 is wound around and fixed to the sealing portion 4b on the anode side. ing. The position A where the trigger wire 7 is fixed is a position separated from the boundary portion P between the light emitting section 1 and the sealing section 4b by about 3 mm or more in the opposite direction to the light emitting section 1.

At the end of the sealing portion 4b on the anode side, a base 8 made of nickel-plated brass having conductivity is fixed with an adhesive. Inside the base 8, a stranded wire of a nickel wire (not shown) plasma-welded to the base 8 is electrically connected to an anode-side external lead rod (not shown). And
An insulating member 9 is formed between the base 8 and the light emitting section 1 so as to insert the sealing section 4b therein. As shown in FIG. 2, the insulating member 9 is fixed to the sealing portion 4b by filling the gap with the sealing portion 4b with an adhesive.
That is, the base 8 needs to keep the insulation distance from the trigger wire 7 as described later, and the length in the tube axis direction is made as short as possible. As a result, when adjusting the position by incorporating the short arc discharge lamp into a reflecting mirror, the adjustment is performed by supporting the base 8, but the base 8 alone is used to perform the adjustment.
b cannot be sufficiently held, and the sealing portion 4b is held by the insulating member 9 fitted to the base 8. In other words, with the base 8 and the insulating member 9 fitted together,
It is fixed to the sealing portion 4b. The insulating member 9
Uses an inorganic heat-resistant member, for example, a ceramic or the like in order to maintain good insulation for a long time.

This short arc type discharge lamp is formed such that the inner diameter of the light emitting portion 1 is 8.0 mm, the inner surface area is 2.1 cm ² , and the inner volume is 0.3 cc. Further, in the light emitting section 1, for example, mercury as a buffer metal and a metal halide as a light emitting substance are sealed. The distance between the electrodes is 3 mm, the power consumption is 125 W, the tube wall load is 60 W / cm ² , and the length of the sealing portion 4 a is 20 mm.
It is. In the figure, the entire length of the sealing portion 4b is not visible by the base 8 and the insulating member 9, but the length of the sealing portion 4b is also 4 mm.
It is 20 mm similarly to a. And the starting voltage is 10k
The short arc discharge lamp is turned on for v to 15 kv.

The trigger wire 7 is wound and fixed around the sealing portion 4b, and the distance L between the trigger wire 7 and the base 8 is 15 mm. This distance L (mm)
Indicates that the lighting voltage is A (kv) and the air breakdown strength is B
(Kv / mm), it can be derived by the relational expression of L ≧ A / B. That is, in this short arc type discharge lamp, the lighting voltage is 15 kv, the strength of the dielectric breakdown of air is 1 kv / mm, and the distance L is derived to 15 mm.

Therefore, if the distance L is set to 15 mm or more, a sufficient insulation distance between the trigger wire 7 and the base 8 attached to the end of the sealing portion 4b can be ensured. At the time of lighting, the trigger wire 7 and the base 8 are not short-circuited.

In the drawing, reference numeral 9 denotes an insulating member, and the base 8 and the insulating member 9 have flat portions 8a, 9a on their side peripheral surfaces. The function of this flat portion will be described later. Figure 3 (a)
Shows a perspective view of the base 8 and the insulating member 9. The base 8 shown in FIG. 3A has a flat portion 8a on the side peripheral surface. The insulating member 9 has two flat portions 9a at opposing positions on the side peripheral surface, and is bifurcated to insert and receive the sealing portion. The sealing portion is received by the notch 9b formed by the fork, and is fixed with an adhesive. The reason why the insulating member 9 is bifurcated is to make the diameter of the insulating member 9 as small as possible. In other words, in a structure in which the insulating member 9 has a hole cut out in a cylindrical shape instead of a forked shape to receive the sealing portion, the insulating member exists over the entire circumference of the insulating member 9, This is because the diameter of the insulating member is larger than that of the bifurcated insulating member. Then, when adjusting the position of the lamp by inserting the sealing portion through the neck of the reflector, the inner diameter of the neck is determined in advance, and the lamp is inserted in the clearance between the inner diameter of the neck and the outer diameter of the insulating member. The moving position is adjusted. However, if the diameter of the insulating member is increased, the clearance is reduced, and the position may not be adjusted properly. That is, the diameter of the insulating member must be reduced from the viewpoint of adjusting the position of the lamp. Fig. 3 (b)
The base and the insulating member shown in (c) show another example. The base 8 shown in FIG. 3B does not have a flat portion, and the other structure is the same as that shown in FIG. The base 8 shown in FIG. 3 (c) has four plane-cut portions on the outer peripheral surface, and these portions are flat portions 8a. Actually, it is cut out and a hole is formed in the outer peripheral surface, but it performs the same function as the flat part. The insulating member 9 does not have a flat portion.

FIG. 4 is an explanatory view of an optical device incorporating the short arc discharge lamp of the present invention. The concave reflecting mirror 10 has a reflective film formed of a multilayer film formed on the inner surface thereof. The concave reflecting mirror 10 condenses the light emitted from the short arc type discharge lamp by a condenser lens (not shown), and Light up. A neck portion 11 is formed at the top of the reflecting mirror 10, and the sealing portion 4 b on the anode side of the short arc discharge lamp is inserted into the neck portion 11 and fixed with an adhesive.

The protrusion 81 of the base 8 protruding from the rear end of the neck 11 has a thread groove. The power supply terminal T is fitted into the thread groove, and the nut N is rotated to connect the terminal T to the base 8.
Connect to At this time, a rotational force is applied to the base 8, but since the side peripheral surfaces of the base 8 and the insulating member 9 have flat portions 8a, 9a, when fixed by an adhesive, the flat portions 8a, 9a This has the effect of preventing rotation.
That is, rotation of the short arc type discharge lamp can be prevented. Note that, in this example, flat portions are formed on both the base 8 and the insulating member 9. However, similar effects can be obtained by forming flat portions on at least one of them.

[0021]

According to the short arc discharge lamp of the present invention, the trigger wire is stretched from the external lead rod projecting from the sealing portion on the cathode side to the sealing portion on the anode side,
When the trigger wire is fixed to the sealing part, the short-arc discharge lamp is turned on because the insulation distance between the conductive base attached to the end of the sealing part and the trigger wire is sufficient. The trigger wire and the base are not short-circuited.

Further, by forming a flat portion on the side peripheral surface of the base and / or the insulating member, the power supply terminal is connected and fixed to the base of the short arc type discharge lamp fixed to the neck of the reflector with an adhesive. At this time, rotation of the short arc type discharge lamp can be prevented.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a short arc type discharge lamp according to the present invention.

FIG. 2 is an enlarged explanatory view of only the vicinity of a base of the short arc type discharge lamp in FIG. 1;

FIG. 3 is a perspective view of a base and an insulating member of the short arc discharge lamp according to the present invention.

FIG. 4 is an explanatory diagram of an optical device using the short arc type discharge lamp according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Light-emitting part 2 Cathode 3 Anode 4a Sealing part 4b Sealing part 5a Metal foil 5b Metal foil 6 External lead rod 7 Trigger wire 8 Base 8a Flat part 9 Insulating member 9a Flat part 9b Notch

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-5-135746 (JP, A) JP-A-9-97591 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H01J 5/50 H01J 61/54

Claims (2)

(57) [Claims] 1. A light-emitting part in which a cathode and an anode are arranged facing each other, and a sealing part formed at an end of the light-emitting part,
In a short arc type discharge lamp in which a trigger wire connected to an external lead rod protruding from the cathode side sealing portion is wound and fixed at the anode side sealing portion, the anode side sealing portion is provided at an end thereof. A short arc type discharge lamp comprising a conductive base, and an insulating member for holding an anode-side sealing portion fitted to the base on a light emitting portion side of the base. 2. The short arc discharge lamp according to claim 1, wherein the base and / or the insulating member has a flat portion on a side peripheral surface thereof.