JP2002260432A - Lamp with reflector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lamp with a reflector, which does not require a step mounting a cap and does not deviate an emission bright point of the lamp from a focal position of a concave reflector. SOLUTION: This lamp with a reflector has a base fixed in an opening set in the bottom center of a concave reflector and a sealing part in at least one end of an arc tube. A sealing part of the lamp with an exterior lead projected from the sealing part is fixed to the base using an adhesive and a feeder is connected to the exterior lead projected from the sealing part. The lamp with the reflector is characterized in that an end of the feeder-fixing member, which fixes the feeder, is buried in the adhesive and fixed, or is fixed to the periphery of the base, and the feeder is fixed to the other end of the feeder- fixing member.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lamp with a reflecting mirror which is incorporated in a projector such as an OHP, a slide projector, a real projector, and a liquid crystal projector.

[0002]

2. Description of the Related Art In recent years, an OHP (overhead projector) or a liquid crystal projector has been used as a presentation tool. In these projection devices,
Discharge lamps such as short-arc type metal halide lamps and mercury lamps with excellent luminous efficiency are used as light source lamps, and the sealing part provided in these discharge lamps is inserted into the central bottom opening of the concave reflector and fixed. In addition, a lamp with a reflecting mirror having an integral structure is built in the projection device.

Hereinafter, a conventional lamp with a reflecting mirror will be described in detail. FIG. 7 is a diagram showing an example of a lamp used for a conventional lamp with a reflector. The lamp 1 is a discharge lamp such as a short arc type metal halide lamp or a mercury lamp. The lamp 1 is connected to a substantially elliptical spherical arc tube portion 3 forming an emission space so as to extend outward from both ends of the arc tube portion 3. A discharge vessel 2 having rod-shaped sealing portions 4a and 4b, and made of, for example, quartz glass;
Having. In the arc tube part 3, a pair of electrodes 5a, 5b made of tungsten are arranged to face each other along the tube axis of the discharge vessel 2, and the pair of electrodes 5a, 5b are internal lead rods 6a, 6b each having a tip. Are electrically connected to the external lead rods 8a and 8b via metal foils 7a and 7b made of molybdenum or the like embedded in the sealing portions 4a and 4b, for example. Note that mercury or mercury and a metal halide as a luminescent metal are sealed in the arc tube portion 3, and a rare gas such as argon is also sealed as a starting gas. As the metal halide, for example, dysprosium iodide, neodymium iodide, cesium iodide or the like is sealed.

[0004] Next, the base to be attached to the above-described lamp will be described in the order of assembling steps. FIG.
FIG. 2 is a diagram showing a cross-sectional structure of a base attached to a lamp used in a conventional lamp with a reflector. First, the external lead rod 8a of the lamp 1 protruding from the one sealing portion 4a is electrically connected to the nickel stranded wire 30. There are various connection methods. In the case of FIG. 8, the external lead rod 8a and the Ni stranded wire 30 are connected by overlapping the tip of the external lead rod 8a and the Ni stranded wire 30 and spot welding the overlapped portion. Next, the Ni stranded wire 30 connected to the external lead rod 8a is
1 and the lamp 1 and the base 31
After determining the positional relationship with the
An inorganic adhesive 32, for example, a ceramic adhesive is injected into b. The adhesive is cured, and the lamp 1 and the base 31 are integrated. Finally, the stranded wire 30 and the base 31 are electrically connected at the base pin 31c. The connection method includes
As with the above, there are various methods, and a silver brazing may be supplied to the base pin portion 31c and may be heated and melted and solidified for connection, or may be connected by arc welding.

After the base 31 is attached to the lamp 1 by the above-described steps, a concave reflecting mirror is attached to the lamp 1. FIG. 9 shows an example of a conventional lamp with a reflecting mirror, and the reflecting mirror portion shows a cross section thereof. The concave reflecting mirror 9 is made of heat-resistant hard glass, for example, borosilicate glass, and has a parabolic or elliptical shape. The concave reflecting mirror 9 has an opening 9a for inserting the sealing portion 4a of the lamp 1 on the side where the base 31 is attached, and an external lead rod protruding from the other sealing portion 4b at the center bottom thereof. A through-hole 9c is provided in the light reflecting portion 9b of the concave reflecting mirror 9 for drawing out a power supply line 10b connected to the concave reflecting mirror 9 to the outer surface of the concave reflecting mirror 9. The light reflecting portion 9b of the concave reflecting mirror 9 is provided with titania (TiO 2) by, for example, an evaporation method.
₂ ) A dielectric multilayer film is formed by alternately laminating silica and SiO _2, and the thickness of each dielectric film is set so that light in the ultraviolet region and infrared region is transmitted and only visible light is reflected. The number of films is specified. The concave reflecting mirror 9 is mounted on the lamp 1 such that the central axis of the concave reflecting mirror 9 and the longitudinal axis of the lamp 1 coincide with each other and the luminescent spot of the lamp 1 is located at the focal position of the concave reflecting mirror 9. And is integrated with the lamp 1 by an inorganic adhesive 11, for example, a ceramic adhesive.

Further, a power supply line 10a covered with an insulating material is connected to the screw portion 31d of the base 31.
There are various attachment methods. In the case of FIG. 9, the crimp terminal 12 having an insertion hole (not shown) is attached to the end of the power supply line 10a, and the screw portion 31d is inserted into the insertion hole. Then, the crimp terminal 12 is fixed and the power supply line 10a is connected to the base 31 using the nut 13 screwed to the screw portion 31d.

[0007]

By the way, in recent years, with respect to lamps with reflecting mirrors, it is required to reduce the number of parts and the number of production steps in order to reduce the manufacturing cost. Lamp 1
The base 31 is mounted on the concave reflector 9 such that the central axis of the concave reflector 9 coincides with the longitudinal axis of the lamp 1 and the luminescent spot of the lamp 1 is located at the focal position of the concave reflector 9.
Is provided as a member for gripping the lamp 1 when the lamp 1 is moved, and at the same time, has a function of electrically connecting the external lead rod 8a and the power supply line 10a. However, if it is possible to directly connect the external lead rod 8a and the power supply line 10a, the base 31 is not always necessary for forming a lamp with a reflecting mirror. Also, since a plurality of steps were required for mounting the base 31, it was required to manufacture a lamp with a reflector without using the base 31.

FIG. 10 is a diagram showing a sectional structure of a lamp with a reflector in which a lamp without a base is attached to a reflector.
When attaching the lamp 1 without the base to the concave reflecting mirror 9,
When the lamp 1 is moved with respect to the concave reflecting mirror 9, a jig for gripping the lamp 1 is required, but a lamp without a base can be attached to the concave reflecting mirror 9. However, there is another problem in using the lamp with the reflecting mirror having this structure, that is, in the lamp with the reflecting mirror in FIG. 10, the concave reflecting mirror is transported with the power supply line 10a or the power supply line 10a is twisted. If an unintended act such as pulling is performed, there arises a problem that desired illuminance cannot be obtained during use.

The inventor of the present invention has intensively studied the above problem and has presumed that the reason is as follows. That is, when the lamp with the concave reflecting mirror shown in FIG. 10 is carried by holding the power supply line 10a or an unintended act such as twisting or pulling the power supply line 10a is performed, the sealing portion 4a of the lamp 1 is A force from all directions acts on the interface of the inorganic adhesive 11 through the power supply line 10a. The adhesive force between the sealing portion 4a of the quartz glass lamp 1 and the inorganic adhesive 11 is weaker than the adhesive force between the brass base 31 and the inorganic adhesive 11 shown in FIG. When a force is applied, the luminescent spot of the lamp 1 shifts from the focal position of the concave reflecting mirror 11. As a result, it is considered that the illuminance during use is reduced.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to eliminate the need for a step of attaching a base to a lamp, and to provide a light emitting luminescent spot of the lamp from a focal position of a concave reflecting mirror. An object of the present invention is to provide a lamp with a reflecting mirror that does not shift.

[0011]

According to the first aspect of the present invention, a base is fixed to an opening provided at a central bottom portion of a concave reflecting mirror, and a sealing portion is provided at at least one end of an arc tube portion.
One sealing portion of the lamp, in which an external lead protrudes from the sealing portion, is fixed to the base with an adhesive, and a power supply line is connected to the external lead protruding from the sealing portion with a reflecting mirror. In the lamp, the power supply line is fixed, one end of a power supply line fixing member is fixed by embedding in the adhesive, or fixed to the outer periphery of the base, and the power supply line is attached to the other end of the power supply line fixing member. It is characterized by being fixed. Further, the invention according to claim 2 has a sealing portion at at least one end of the arc tube portion, and one sealing portion of the lamp having an external lead protruding from the sealing portion is located at the center of the concave reflecting mirror. In a lamp with a reflecting mirror, which is inserted into an opening provided at the bottom, is fixed by an adhesive, and is connected to an external lead protruding from the sealing portion, the power supply line is fixed, wherein the power supply line is fixed. One end of the member is embedded and fixed in the adhesive, or fixed to the outer surface of the concave reflecting mirror,
The power supply line is fixed to the other end of the power supply line fixing member.

[0012]

According to the above arrangement, the force applied to the feeder is
Since it is blocked by the feeder line fixing member, a large force is not transmitted to the interface between the sealing portion of the lamp and the adhesive via the external lead.

[0013]

FIG. 1 shows a sectional structure of a lamp with a reflecting mirror according to a first embodiment of the present invention. Lamp 1
The discharge vessel 2 is made of quartz glass, and is connected to an elliptical spherical arc tube portion 3 forming a light emitting space so as to extend outward from both ends of the arc tube portion 3. It has a rod-shaped anode-side sealing portion 40a and a cathode-side sealing portion 40b. In the arc tube part 3, an anode 50a and a cathode 50b are arranged facing each other on the tube axis of the discharge vessel 2 so that the distance between the electrodes is, for example, 2.0 mm or less, and the cathode 50b is connected to the cathode 50b. A cathode-side internal lead bar 60b at the tip extends inside the cathode-side sealing portion 40b, and is airtightly buried in the cathode-side sealing portion 40b.
Is electrically connected to the cathode-side external lead rod 80b via The anode 50a has the same configuration.
In the figure, reference numeral 60a denotes an anode-side internal lead bar, and 70a denotes an anode-side metal foil. Further, an anode-side external lead rod 8 protruding from the anode-side sealing portion 40a of the discharge vessel 2 of the discharge lamp 1
Power supply lines 10a and 10b for supplying electric power are connected to the respective ends of the cathode side external lead rod 80b protruding from the cathode side sealing portion 40b.

In the arc tube portion 3, mercury is sealed as a light emitting substance, and a rare gas such as argon or xenon is sealed as a lighting starting gas. The rare gas is filled with, for example, 1.3 × 10 ⁴ Pa. Here, the amount of enclosed mercury is 0.15 mg / mm ³ or more, which means that the vapor pressure of mercury during stable lighting becomes one hundred and several tens atmospheres or more.

An example of such a high-pressure mercury lamp is as follows. The maximum outer diameter of the arc tube part is 12 mm, the maximum inner diameter is 5 mm,
The emission space length (length in the axial direction of the lamp) is 12 mm, the amount of enclosed mercury is 17 mg, the internal volume of the emission space is 120 mm ³ , and the rated power is 160 W.

The concave reflecting mirror 9 is made of a hard glass having heat resistance, for example, borosilicate glass, and has a parabolic or elliptical shape as in the prior art. The concave reflecting mirror 9 has an opening 9a for inserting the anode-side sealing portion 40a of the lamp 1 at the center bottom thereof, and an opening 9a connected to an external lead rod 80b projecting from the cathode-side sealing portion 40b. A through hole 9c for drawing out the electric wire 10b to the outer surface of the concave reflecting mirror 9 is provided in the light reflecting portion 9b of the concave reflecting mirror 9. Further, a dielectric multilayer film in which titania (TiO ₂ ) and silica (SiO ₂ ) are alternately laminated by, for example, a vapor deposition method is formed on the light reflecting portion 9b of the concave reflecting mirror 9, and the light in the ultraviolet region and the infrared region is formed. The thickness and the number of the dielectric films are defined so that only the visible light is reflected while transmitting the light. The concave reflecting mirror 9 is mounted on the lamp 1 such that the central axis of the concave reflecting mirror 9 and the longitudinal axis of the lamp 1 coincide with each other and the luminescent spot of the lamp 1 is located at the focal position of the concave reflecting mirror 9. And is integrated with the lamp 1 by an inorganic adhesive 11, for example, a ceramic adhesive.

Next, a procedure for assembling the lamp with the reflecting mirror according to the first embodiment of the present invention will be described. In FIG.
1 shows a cross-sectional structure of a base used for a lamp with a reflecting mirror according to a first embodiment of the present invention, and a structure of a feeder line fixing member.
First, an opening 9a provided at the central bottom of the concave reflecting mirror 9 is inserted into an adhesive portion 14a of a cylindrical base 14 made of ceramics, and an inorganic adhesive 11, for example, a ceramic adhesive is filled therebetween, The concave reflecting mirror 9 and the base 14 are fixed to each other. Next, the anode-side sealing portion 40 of the lamp 1
is inserted into the base 14 through the opening 9a of the concave reflecting mirror 9, the central axis of the concave reflecting mirror 9 coincides with the longitudinal axis of the lamp 1, and the luminescent spot of the lamp 1 (the anode 50a and the cathode 50a). 5
0b) is located at the focal position of the concave reflecting mirror 9, the inorganic adhesive 11 is filled in the bonding portion 14b of the base 14, and the lamp 1 is fixed to the base 14. Further, the anode-side sealing portion 40a of the lamp 1, which protrudes from the bonding portion 14b of the base 14, is inserted into the cylindrical lamp insertion portion 15a of the power supply line fixing member 15 made of metal, for example, copper, thereby forming an inorganic adhesive. 11 is filled in the bonding portion 14c of the base 14, and the base 14 and the feeder line fixing member 15 are integrated. Therefore, one end of the feeder line fixing member 15, that is, the cylindrical lamp insertion portion 15 a is embedded and fixed in the adhesive 11. Finally, the power supply lines 10a and 10b are connected to the external lead rods 80a and 80b. At this time, the power supply line 10a connected to the anode-side external lead rod 80a is sandwiched between the other end of the power supply line fixing member 15, that is, the power supply line gripping portion 15b, and crimped and fixed.

Next, the operation and effect of the embodiment of the present invention shown in FIG. 1 will be described. In the lamp with the reflector according to the first embodiment of the present invention, one end of the feeder line fixing member 15, that is, the cylindrical lamp insertion portion 15a is embedded and fixed in the adhesive 11, and the feeder line 10a is connected to the feeder line. Since it is fixed to the other end of the fixing member 15, that is, to the power supply line gripping portion 15 b, the force applied to the power supply line 10 a, that is, the lamp with the concave reflecting mirror is carried with the power supply line 10 a, or the power supply line 10 a is twisted. The force generated when performing an action such as pulling or pulling is interrupted by the power supply line gripping portion 15b, and the force between the sealing portion 40a of the lamp and the adhesive 11 through the external lead rod 80a to which the power supply line 10a is connected. It does not reach the interface. Therefore, it is possible to provide a lamp with a reflecting mirror which does not cause the luminescent spot of the lamp 1 to be deviated from the focal position of the concave reflecting mirror 9 to reduce the illuminance and does not require a step of attaching a base to the lamp.

FIG. 3 shows a sectional structure of a lamp with a reflecting mirror according to a second embodiment of the present invention. FIG. 4 shows a cross-sectional structure of a base and a structure of a feeder line fixing member used in a lamp with a reflector according to a second embodiment of the present invention. In the lamp provided with a reflecting mirror according to the second embodiment of the present invention, the concave reflecting mirror 9 has an opening 9a formed on an adhesive portion 16 of the base 16.
a, the concave reflecting mirror 9 and the base 16 are fixed to each other by an inorganic adhesive 11, for example, a ceramic adhesive. Further, the anode-side sealing portion 40a of the lamp 1
Bonding portion 1 of cylindrical base 16 made of ceramics through opening 9a provided at the center bottom of concave reflecting mirror 9
6b, and is fixed to the base 16 with the inorganic adhesive 11 filled in the bonding portion 16b of the base 16.
Further, the base holding portion 17a of the power supply line fixing member 17 made of metal, for example, copper, is
It is crimped in a state where c is sandwiched, and is fixed to the base 16. Therefore, one end of the feeder line fixing member 17, that is, the base holding portion 17 a is fixed to the outer periphery of the base 16. Finally, the power supply lines 10a, 10b are connected to the external lead rods 80a, 80b. At this time, the power supply line 10a connected to the anode-side external lead rod 80a is
Similarly to the first embodiment, the power supply line fixing member 17 is sandwiched and crimped and fixed by the other end of the power supply line fixing member 17, that is, the power supply line holding portion 17b.

Next, the operation and effect of the embodiment of the present invention shown in FIG. 3 will be described. In the lamp with the reflecting mirror according to the second embodiment of the present invention, one end of the feeder line fixing member 17, that is, the base holding portion 17a is fixed to the outer periphery of the base 16,
Since the power supply line 10a is fixed to the other end of the power supply line fixing member 17, that is, to the power supply line gripping portion 17b, the power applied to the power supply line 10a, that is, the power supply line 10a is used to transport the lamp with the concave reflecting mirror. The force generated when an action such as twisting or pulling the power supply line 10a is performed is determined by the power supply line grip 17b.
And the external lead rod 80 connected to the power supply line 10a.
No transmission to the interface between the sealing portion 40a of the lamp and the adhesive 11 through a. Therefore, it is possible to provide a lamp with a reflecting mirror which does not cause the luminescent spot of the lamp 1 to be deviated from the focal position of the concave reflecting mirror 9 to reduce the illuminance and does not require a step of attaching a base to the lamp.

FIGS. 5 and 6 show the sectional structure of a reflector-equipped lamp according to the third and fourth embodiments of the present invention. In the lamp with a reflecting mirror according to the third and fourth embodiments of the present invention, the lamp 1 has a sealing portion 40a having an opening 9 of the concave reflecting mirror 9.
a, the central axis of the concave reflecting mirror 9 coincides with the longitudinal axis of the lamp 1, and the luminescent spot of the lamp 1 (the opposing portion of the anode 50 a and the cathode 50 b) comes to the focal position of the concave reflecting mirror 9. And is fixed to the concave reflecting mirror 9 by an inorganic adhesive 11. Then, in the case of the third embodiment, one end of the feeder line fixing member 19 made of metal, for example, copper, is embedded and fixed in the inorganic adhesive 11 in the opening 9a of the concave reflecting mirror 9, and is fixed to the fourth. In the case of the embodiment, the concave reflecting mirror 9 is fixed to the outer surface, that is, the outer periphery of the opening 9a. Furthermore,
Power supply line 10a connected to anode-side external lead rod 80a
As in the first and second embodiments, is clamped and fixed to the other end of the feeder line fixing member 19, that is, to the feeder line holding portion 19a.

Next, the operation and effect of the embodiment of the present invention shown in FIGS. In the lamps with reflecting mirrors according to the third and fourth embodiments of the present invention, one end of the feeder line fixing member 19 is fixed by being embedded in the inorganic adhesive 11 in the opening 9 a of the concave reflecting mirror 9, or is fixed by concave reflection. The power supply line 10a is fixed to the outer surface of the mirror 9, that is, the outer periphery of the opening 9a, and the power supply line 10a is fixed to the other end of the power supply line fixing member 19, that is, to the power supply line gripping portion 19a. , That is, the feed line 1
0a is transported by the concave-reflector-equipped lamp, and the force generated when the power supply line 10a is twisted or pulled is blocked by the power supply line gripping portion 19a.
a is not transmitted to the interface between the sealing portion 40a of the lamp and the adhesive 11 through the connected external lead rod 80a.
Therefore, it is possible to provide a lamp with a reflecting mirror which does not cause the luminescent spot of the lamp 1 to be deviated from the focal position of the concave reflecting mirror 9 to reduce the illuminance and does not require a step of attaching a base to the lamp.

In the first to fourth embodiments, the lamp 1 is of a DC lighting type, but is not limited thereto, and may be of an AC lighting type.

[0024]

According to the lamp with the reflecting mirror of the present invention, the luminous point of the lamp does not deviate from the focal position of the concave reflecting mirror, and the illuminance does not decrease. With lamps can be provided.

[Brief description of the drawings]

FIG. 1 is a diagram showing a cross-sectional structure of a lamp with a reflecting mirror according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a cross-sectional structure of a base and a structure of a feeder line fixing member used in the lamp with a reflecting mirror according to the first embodiment of the present invention.

FIG. 3 is a view showing a sectional structure of a lamp with a reflecting mirror according to a second embodiment of the present invention.

FIG. 4 is a diagram showing a cross-sectional structure of a base used in a lamp with a reflector according to a second embodiment of the present invention, and a structure of a feeder line fixing member.

FIG. 5 is a view showing a sectional structure of a lamp with a reflecting mirror according to a third embodiment of the present invention.

FIG. 6 is a view showing a sectional structure of a lamp with a reflecting mirror according to a fourth embodiment of the present invention.

FIG. 7 is a diagram showing an example of a lamp used in a conventional lamp with a reflector.

FIG. 8 is a diagram showing a cross-sectional structure of a base attached to a lamp used in a conventional lamp with a reflector.

FIG. 9 is a diagram showing an example of a conventional lamp with a reflector.

FIG. 10 is a diagram showing a sectional structure of a lamp with a reflector in which a lamp without a base is attached to a concave reflector.

[Explanation of symbols]

 Reference Signs List 1 lamp 2 discharge vessel 3 arc tube part 4a, 4b sealing part 5a, 5b electrode 6a, 6b internal lead rod 7a, 7b metal foil 8a, 8b external lead rod 9 concave reflecting mirror 9a opening 9b light reflecting part 9c through hole 10a , 10b power supply line 11, 32 inorganic adhesive 12 crimp terminal 13 nut 14, 16 base 14a, 14b, 14c, 16a, 16b bonding portion 15, 17, 19 power supply line fixing member 15a lamp insertion portion 15b, 17b, 19a power supply line Gripping part 16c Fixed member locking part 17a Base holding part 18 Screw 30 Ni stranded wire 31 Cap 31a Twisted wire insertion part 31b Adhesive injection part 31c Cap pin part 31d Screw part 40a Anode side sealing part 40b Cathode side sealing part 50a Anode 50b Cathode 60a Anode-side inner lead bar 60b Cathode-side inner lead bar 70a Anode-side metal foil 70b Cathode side metal foil 80a Anode side external lead rod 80b Cathode side external lead rod

Claims (2)

[Claims] 1. A lamp having a base fixed to an opening provided at a central bottom portion of a concave reflecting mirror, a sealing portion at at least one end of an arc tube portion, and an external lead protruding from the sealing portion. A power supply line fixing member for fixing the power supply line, wherein the power supply line is fixed to the base, wherein the power supply line is connected to an external lead protruding from the sealing portion; A lamp with a reflecting mirror, wherein one end of the power supply line is fixed by embedding in the adhesive or fixed to the outer periphery of the base, and the power supply line is fixed to the other end of the power supply line fixing member. 2. A lamp having a sealing portion at at least one end of an arc tube portion, wherein one sealing portion of a lamp having an external lead protruding from the sealing portion has an opening provided at a central bottom portion of the concave reflecting mirror. In a lamp with a reflecting mirror, wherein a power supply line is connected to an external lead that is inserted and fixed by an adhesive and protrudes from the sealing portion, the power supply line is fixed, and one end of a power supply line fixing member is A lamp with a reflecting mirror, wherein the lamp is fixed by embedding in an adhesive or fixed to the outer surface of the concave reflecting mirror, and the power supply line is fixed to the other end of the power supply line fixing member.