JPH08171887A - Lamp with reflection mirror and lighting device using it - Google Patents

Abstract

PURPOSE: To prevent drop and looseness of a mirror from happening by forming recessed and projecting parts in a cylindrical fitting part of a reflection mirror so as to firmly join the cylindrical fitting part of the reflection mirror and a base. CONSTITUTION: A cylindrical fitting part 24 is integrally formed in the rear face top part of a reflection mirror main body 21. The cylindrical part 24 which has a cylinder or prismal shape is formed in such a state as projecting to the rearward of the main body 21. The cylinder part 24 is inserted into a fixing hole 34 of a base 30 and joined with a base main body 31 by adhesive 35 such as heat resistant insulating cement in this state. A recessed part, a projecting part, or both of them are formed in the outer face of the cylindrical part 24. For example, recessed grooves 28, 28 crossing each other in the axial direction of the reflection mirror 20 are formed, a contact area between the cylindrical part 24 and the agent 35 increases, and a part of the agent 35 flows into the grooves 28, 28 so that contact strength between the cylindrical part 24 and the agent 35 is strengthened. Therefore a mirror 20 is prevented from dropped out of the base 30 or being unsteady by loosened.

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 having a screw type base attached thereto and a lighting device using the same.

[0002]

2. Description of the Related Art Recently, a lamp with a reflecting mirror, particularly a halogen lamp with a reflecting mirror, which uses a small-sized one-sealed halogen lamp as a light source, has been used for store lighting. This type of halogen bulb with a reflector can be used as a downlight or spotlight because the light emitted from the halogen bulb is reflected by the reflecting surface of the reflector and radiates in a certain direction. Is effective as lighting.

By the way, this type of lamp with a reflector is
A halogen light bulb is housed in a reflecting mirror having a reflecting surface formed on the inner surface and a mounting cylinder portion provided at the top of the back surface, and this halogen light bulb has a sealed end inserted into the mounting cylinder portion of the reflecting mirror. It is fixed to the mounting cylinder via an adhesive. A pair of pin terminals are connected to the sealed end of the halogen bulb, and these pin terminals are projected from the end of the mounting cylinder.

As described above, in a normal lamp with a reflecting mirror, a pair of pin terminals are projected rearward from the mounting cylinder portion on the rear surface of the reflecting mirror, and such a pin terminal can be mounted on a lighting fixture as it is. It has become.

However, depending on the type of luminaire, there is a case where the lamp with a reflector is desired to be attached to the screw type socket. In this case, since the pin terminal cannot be attached to the screw type socket, the lamp with the reflecting mirror is attached to the screw type base, and is attached to the light source side screw type socket via the screw type base. Is adopted.

When a lamp with a reflecting mirror is mounted on a screw type base, a fixing hole into which the mounting cylinder of the reflecting mirror is inserted is formed at one end of an insulating base made of ceramic or the like, and the other end is a screw type. Attach the base, insert the mounting tube of the reflector into the fixing hole, fix the mounting tube to the base with an adhesive, and attach the pin terminal protruding from the mounting tube to the screw-type base. It is electrically connected.

[0007]

However, there are some cases where the mounting tube of the reflecting mirror is fixed to the base with an adhesive, and the mounting tube of the reflecting mirror falls off from the base or rattles. Was given.

This is because the reflecting mirror is usually made of a metal such as glass or aluminum, and its surface is smooth, so that the frictional resistance with the adhesive is small and there is a difference in thermal expansion. It is a thing.

The present invention has been made in view of the above circumstances. An object of the present invention is to provide a reflecting mirror in which the mounting cylinder portion of the reflecting mirror and the base are firmly joined to each other to prevent the falling and rattling. It is intended to provide a lamp with a lamp and a lighting device using the lamp.

[0010]

According to a first aspect of the present invention, there is provided a reflecting mirror having a reflecting surface formed on an inner surface thereof and a mounting cylinder portion provided on a top portion of a rear surface thereof, and the reflecting mirror is accommodated in the reflecting mirror, and an end portion thereof is the above-mentioned. A lamp fixed to the mounting tube via an adhesive, a pin terminal connected to this lamp and protruding from the end of the mounting tube, and a mounting tube for the reflecting mirror inserted at one end A hole is formed, a screw-type base is attached to the other end, and a mounting cylinder portion of the reflecting mirror inserted into the fixing hole is fixed by an adhesive and a pin protruding from the mounting cylinder portion. A reflector-equipped lamp, characterized in that a terminal is provided with the base connected to the screw-type base, and a concave portion or a convex portion is formed on the outer surface of the mounting cylinder portion.

A second aspect of the present invention is the lamp with a reflecting mirror according to the first aspect, wherein the lamp is a halogen bulb. The invention according to claim 3 is the lamp with a reflecting mirror according to claim 1 or 2, wherein an infrared reflecting film is formed on the surface of the lamp.

The invention according to claim 4 is characterized in that an interference film which transmits infrared rays and reflects visible light is formed on the reflecting surface of the reflecting mirror. 1 is a lamp with a reflecting mirror.

A fifth aspect of the present invention is the lamp with a reflecting mirror according to the fourth aspect, wherein an uneven surface is formed on the back surface of the reflecting mirror. The invention of claim 6 is characterized in that a front glass is attached to the front opening of the reflecting mirror, and an infrared reflection film is formed on the surface of the front glass. 2 is a lamp with a reflecting mirror.

According to a seventh aspect of the present invention, a front glass is attached to the front opening of the reflecting mirror, and an interference film that blocks transmission of ultraviolet rays is formed on the surface of the front glass. The lamp with a reflecting mirror according to claim 1.

According to an eighth aspect of the present invention, by closing the front opening of the reflecting mirror with a front glass, the reflecting mirror forms an envelope having a closed structure surrounding the lamp, and oxygen is contained inside the envelope. The lamp with a reflecting mirror according to any one of claims 1 to 7, which is enclosed.

According to a ninth aspect of the present invention, there is provided a lighting fixture main body, a screw-type socket attached to the lighting fixture main body, and a screw-type base is screwed into the screw-type socket to thereby provide the lighting fixture main body. A lamp with a reflector according to any one of claims 1 to 8, which is attached to a lighting device.

[0017]

According to the first aspect of the invention, since the concave portion or the convex portion is formed in the mounting cylinder portion of the reflecting mirror, the adhesive can be caught on the concave portion or the convex portion, and the contact area between the mounting cylinder portion and the adhesive agent can be improved. Therefore, problems such as the reflecting mirror falling off the base and looseness and rattling are eliminated.

According to the invention of claim 2, since the lamp used as the light source is a halogen bulb, the luminous efficiency is excellent, the brightness is high, and the object to be illuminated looks like a natural color.
According to the invention of claim 3, since the infrared reflecting film is formed on the surface of the lamp, the infrared rays emitted from the filament are reflected by the infrared reflecting film and returned to the filament to heat the filament. Therefore, the power energy supplied from the power source can be reduced, and the power consumption can be saved.

Further, the amount of infrared rays radiated to the front of the reflecting mirror is reduced, which is effective for a lamp for illuminating an object to be irradiated which does not like heat. According to the invention of claim 4, since an interference film that transmits infrared rays and reflects visible light is formed on the reflecting surface of the reflecting mirror, the amount of infrared rays irradiated in front of the reflecting mirror is also formed in this case. It becomes less and is effective as a lamp for illuminating the object to be irradiated that dislikes heat.

According to the fifth aspect of the present invention, since the concave-convex surface is formed on the rear surface of the reflecting mirror, the surface area of the outer surface of the reflecting mirror is increased, the heat radiation is increased, and the temperature rise of the reflecting mirror can be suppressed. it can.

According to the sixth aspect of the invention, since the front glass is attached to the front opening of the reflecting mirror and the infrared reflecting film is formed on the surface of the front glass, the amount of infrared rays irradiated to the front of the reflecting mirror is small. Therefore, it is effective as a lamp for illuminating an object to which heat is disliked.

According to the invention of claim 7, the front glass is attached to the front opening of the reflecting mirror, and the interference film for restricting the transmission of ultraviolet rays is formed on the surface of the front glass. This reduces the amount of ultraviolet rays that are emitted, and is effective as a lamp that illuminates objects to be irradiated that do not like ultraviolet rays.

According to the invention of claim 8, the front opening of the reflecting mirror is closed by the front glass to form an envelope having a hermetically sealed structure in which the reflecting mirror surrounds the lamp. Oxygen is sealed in, so that various oxide films formed on the lamp, the reflecting surface, the front glass, etc. are prevented from being reduced and a good oxide film state is maintained. According to the invention of claim 9, since the lamp with the reflector is provided with the screw type base, the lamp can be attached to the light fixture main body through the screw type socket.

[0024]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on the first embodiment shown in FIGS. 1 to 3 show a halogen light bulb with a reflecting mirror, and FIG. 4 is a sectional view of an illumination device using this halogen light bulb 1.

The halogen bulb with a reflecting mirror 1 shown in FIGS. 1 to 3 is composed of a single-sealed halogen bulb 2 and a reflecting mirror 20. The one-side sealed halogen bulb 2 has a bulging portion 4 such as a cylinder, a sphere, an ellipse, etc. formed at one end of an arc tube bulb 3 made of quartz glass, and a crushing sealing portion 5 at the other end. Has been formed.

A visible light transmitting infrared reflecting film 6 is formed on the outer surface (or inner surface) of the bulging portion 4. Although not shown in detail, the infrared reflection film 6 is made of, for example, titanium oxide (TiO 2).
₂ ), tantalum oxide (Ta ₂ O ₅ ), zirconium oxide (ZrO ₂ ), zinc sulfide (ZnS) and other high refractive index layers, silicon oxide (silica = SiO ₂ ), magnesium fluoride (MgF ₂ ) etc. And a low-refractive index layer made of, for example, a multilayer film having a total of 9 to 23 layers. Such an infrared reflection film 6 reflects infrared rays by a multilayer interference effect, but transmits visible light. Play an action.

A filament 7 made of tungsten W is contained in the bulb 3. Filament 7
Is composed of a double coil and is arranged so that the coil axis thereof coincides with the center line of the valve. This filament 7 is connected to a pair of internal lead wires 8 and 9, and these internal lead wires 8 and 9 are crushed and sealed.
Are connected to the metal foil conductors 10 and 11 each made of molybdenum Mo or the like. And these M
Pin terminals 14 and 15 are connected to the foils 10 and 11 via external lead wires 12 and 13, respectively.

A halogen gas is enclosed in the bulb 3. Such a halogen bulb 2 is housed in the reflecting mirror 20. The reflector 20 includes a reflector main body 21 and a front glass 22 attached to a front opening of the reflector main body 21.
It consists of and. The reflecting mirror body 21 is made of glass or aluminum, and has a rotating surface 23.
have. The front glass 22 is made of glass, transparent resin, or the like, and is joined to the front opening of the reflecting mirror body 21 via an adhesive (not shown). As the adhesive, an adhesive having a coefficient of thermal expansion similar to that of the reflecting mirror body 21 and the front glass 22 is used.

A mounting cylinder portion 24 is integrally formed at the top of the rear surface of the reflecting mirror body 21. The mounting tube portion 24 is in the shape of a cylinder or a rectangular tube, and projects rearward of the reflecting mirror body 21. The sealing end of the halogen bulb 2 is inserted into the mounting cylinder 24. This halogen bulb 2
The sealing portion 5 is joined to the mounting cylinder portion 24 with an adhesive 25 such as heat-resistant insulating cement. Thereby, the halogen bulb 2 is positioned and attached to the reflecting mirror 20 at a predetermined position.

The opening end of the mounting tube portion 24 is closed by the closing plate 2.
It is blocked by 6. The pin terminals 14 and 15 extending from the sealing portion 5 of the halogen light bulb 2 penetrate through the closing plate 26 and project to the rear of the mounting cylinder portion 24.

The normal halogen bulb 1 with a reflecting mirror has the above-mentioned structure. However, since this lamp is attached to a screw type socket (described later), the screw type base 30 is used.
Is attached.

The base 30 has a base body 31 made of an insulating material such as ceramics, a screw-type base 32 attached to the base body 31, and an eyelet terminal 33. At one end of the base body 31, the reflecting mirror 2
A fixing hole 34 into which the mounting tube portion 24 of No. 0 is inserted is opened, and the screw type base 32 and the eyelet terminal 33 are attached to the other end.

The mounting cylinder portion 24 of the reflecting mirror 20 is inserted into the fixing hole 34 of the base 30, and in this state, it is joined to the base body 31 by an adhesive agent 35 such as heat-resistant insulating cement.

In this case, the mounting cylinder portion 24 of the reflecting mirror 20 is formed with a concave portion, a convex portion or both on the outer surface, and in the present embodiment, a concave groove 28 intersecting with the axial direction of the reflecting mirror 20. , 28 are formed. Therefore, the contact area between the mounting tubular portion 24 and the adhesive agent 35 increases, and a part of the adhesive agent 35 flows into the concave grooves 28, 28, so that the bonding strength between the mounting tubular portion 24 and the adhesive agent 35 increases. .

When the mounting cylinder portion 24 is inserted into the fixing hole 34 of the base 30, the pin terminals 14 and 15 are also fixed hole 3.
4, and these pin terminals 14 and 15 are inserted.
Is electrically connected to the base 32 and the eyelet terminal 33.

The reflector-equipped halogen bulb 1 having the above-described screw-type base 30 can be attached to the luminaire main body 40 shown in FIG. The luminaire main body 40 has, for example, a housing shape whose lower end is opened, and a screw-type socket 41 is attached to the ceiling surface thereof.
Therefore, the halogen bulb with a reflecting mirror 1 is attached to the luminaire main body 40 by screwing the screw-in base 30 into the screw-in socket 41.

The operation of the embodiment having such a configuration will be described. Screw-type socket 4 of lighting fixture body 40
The halogen light bulb with a reflector 1 attached to 1 is connected to a power source from a screw-type base 30 via a screw-type socket 41. Therefore, an electric current is applied to the filament 7 from the screw cap 32 and the eyelet terminal 33 through the pin terminals 14 and 15.

As a result, the filament 6 emits incandescent light. This light is emitted to the surroundings, passes through the bulb 3, and is emitted to the outside. When this light passes through the infrared reflection film 6 formed on the outer surface of the bulb 3, visible light is transmitted, but infrared light is reflected.

The transmitted visible light is reflected by the reflecting surface 23 of the reflecting mirror main body 21 toward the front, passes through the front glass 22 and illuminates the front. This irradiation light is reflected by the reflecting surface 23.
Since the spread is regulated by, it becomes spot light and is effective for local illumination.

The light radiated to the front of the reflecting mirror 20 is cut off by the infrared reflection film 6 formed on the outer surface of the bulb 3, so that the irradiation amount of the infrared light is reduced and the heat disliked the object. It is effective for illuminating illuminated objects.

The infrared rays reflected by the infrared reflecting film 6 are returned to the inside of the bulb 3, and the infrared rays that have returned return heat the filament 7. Therefore, the filament 7 is given thermal energy by the infrared energy reflected by the infrared reflecting film 6 in addition to the electric energy supplied from the power source, so that the temperature rise is promoted and the incandescence is promoted.
Therefore, if the emission intensity is made to be at the same level as when the infrared reflection film is not provided, the power energy supplied from the power source can be reduced by the amount of the heat energy reflected by the infrared reflection film 5, thus consuming less energy. Power can be saved.

In order to mount the halogen bulb with a reflecting mirror 1 in the threaded socket 41 on the side of the lighting fixture, when the threaded base 30 is mounted on the mounting tube portion 24 of the reflecting mirror 20, a recessed groove is formed in the mounting tube portion 24. Since 28, 28 are formed, a part of the adhesive 35 flows into the concave grooves 28, 28,
For this reason, the contact area between the mounting tubular portion 24 and the adhesive 35 increases, the bonding strength between the mounting tubular portion 24 and the adhesive 35 increases, and the adhesive 35 and the concave grooves 28, 28 mechanically engage with each other. Therefore, the mounting tubular portion 24 does not come out of the adhesive 35, and it is possible to prevent the falling and rattling.

Therefore, such a lamp 1 with a reflecting mirror is equipped with the screw type base 30, so that it can be attached to the screw type socket 41 attached to the light fixture body 40.

The lamp used as the light source may be an ordinary incandescent lamp or a discharge lamp, but if a halogen lamp is used, the luminous efficiency is excellent, the brightness is high, and the object to be illuminated looks natural. be able to.

The present invention is not limited to the above-mentioned first embodiment. That is, in the case of the second embodiment shown in FIG. 5, the interference film 50 that transmits infrared rays and reflects visible light is formed on the reflecting surface of the reflecting mirror 20. in this case,
The lamp 2 may or may not have the infrared reflection film 6.

In the case of such a configuration, visible light of the light emitted from the lamp 2 is reflected by the interference film 50 and is irradiated forward, and infrared light is transmitted through the interference film 50 and reflected. Reach the mirror body 21. The reflector main body 21 radiates heat from the back surface.

Therefore, also in this case, the amount of infrared rays emitted from the front of the reflecting mirror 20 is small, and it is effective for illuminating an object to be exposed to heat. In this case, as shown in FIG. 5, the uneven surface 55 is formed on the back surface of the reflecting mirror body 21.
By forming the above, the surface area of the outer surface of the reflecting mirror main body 21 increases, heat dissipation increases, and the temperature rise of the reflecting mirror can be suppressed. Further, the molding die can be easily removed.

In the case of the third embodiment shown in FIG. 6, the reflecting mirror 2
An infrared reflection film 60 is formed on the inner surface or the outer surface of the front glass 22 of No. 0. In this case as well, the amount of infrared light emitted to the front of the reflecting mirror 20 is small, which is effective for illuminating an object to be exposed to heat.

A fourth embodiment will be described with reference to FIG. 6 as well. Instead of the infrared reflection film 60, an interference film 65 for restricting the transmission of ultraviolet rays is formed. By doing so, the amount of ultraviolet rays radiated in front of the reflecting mirror 20 decreases,
It is effective as a lamp for illuminating objects to be irradiated that do not like UV irradiation. Particularly, in this case, when a discharge lamp is used as the light source, the discharge lamp emits a large amount of ultraviolet rays, and therefore the interference film 65 is used.
It is effective to cut ultraviolet rays with.

In the case of the above-mentioned first to fourth embodiments, the front opening of the reflecting mirror main body 21 is closed by the front glass 22 so that the reflecting mirror 20 forms an envelope having a closed structure surrounding the lamp 2. Therefore, it is effective to enclose oxygen inside the envelope. That is, the infrared reflection film 6 is formed on the outer surface of the lamp 2, the interference film 50 that transmits infrared light and reflects visible light is formed on the reflection surface, or the infrared reflection film 60 or ultraviolet rays is formed on the inner surface of the front glass 22. When the interference film 65 that regulates the transmission is formed, most of these films are formed of an oxide film. Therefore, if the atmosphere around these oxide films is set to an oxygen environment, reduction of the oxide film is prevented and a good oxide film state can be maintained.

However, in the present invention, the reflector main body 21
The front opening of the above is not limited to being closed by the front glass 22, but the front surface of the reflecting mirror 20 may be opened as in the fifth embodiment shown in FIG.

[0052]

As described above, according to the first aspect of the invention, since the concave portion or the convex portion is formed in the mounting cylinder portion of the reflecting mirror, the adhesive can be caught on the concave portion or the convex portion, and the mounting can be performed. The contact area between the cylindrical portion and the adhesive is also increased, so that problems such as the reflecting mirror falling off the base and loosening and rattling are eliminated.

According to the second aspect of the invention, since the lamp used as the light source is a halogen bulb, the luminous efficiency is excellent, the brightness is high, and the object to be illuminated looks like a natural color. According to the invention of claim 3, since the infrared reflecting film is formed on the surface of the lamp, the infrared rays emitted from the filament are reflected by the infrared reflecting film and returned to the filament to heat the filament. Therefore, the power energy supplied from the power source can be reduced, and the power consumption can be saved.

Further, the amount of infrared rays radiated in front of the reflecting mirror is reduced, which is effective for a lamp for illuminating an object to be irradiated which does not like heat. According to the invention of claim 4, since an interference film that transmits infrared rays and reflects visible light is formed on the reflecting surface of the reflecting mirror, the amount of infrared rays irradiated in front of the reflecting mirror is also formed in this case. It becomes less and is effective as a lamp for illuminating the object to be irradiated that dislikes heat.

According to the fifth aspect of the present invention, since the concave-convex surface is formed on the rear surface of the reflecting mirror, the surface area of the outer surface of the reflecting mirror is increased, the heat radiation is increased, and the temperature rise of the reflecting mirror can be suppressed. it can.

According to the sixth aspect of the present invention, since the front glass is attached to the front opening of the reflecting mirror and the infrared reflecting film is formed on the surface of the front glass, the amount of infrared rays irradiated to the front of the reflecting mirror is small. Therefore, it is effective as a lamp for illuminating an object to which heat is disliked.

According to the invention of claim 7, the front glass is attached to the front opening of the reflecting mirror, and the interference film for restricting the transmission of ultraviolet rays is formed on the surface of the front glass. This reduces the amount of ultraviolet rays that are emitted, and is effective as a lamp that illuminates objects to be irradiated that do not like ultraviolet rays.

According to the eighth aspect of the present invention, by closing the front opening of the reflecting mirror with the front glass, the reflecting mirror forms an envelope having a hermetically sealed structure surrounding the lamp. Oxygen is sealed in, so that various oxide films formed on the lamp, the reflecting surface, the front glass, etc. are prevented from being reduced and a good oxide film state is maintained. According to the invention of claim 9, since the lamp with the reflector is provided with the screw type base, the lamp can be attached to the light fixture main body through the screw type socket.

[Brief description of drawings]

FIG. 1 is a sectional view of a halogen light bulb with a reflecting mirror showing a first embodiment of the present invention.

FIG. 2 is a cross-sectional view of the halogen bulb with a reflecting mirror as seen from another direction of the same embodiment.

FIG. 3 is a front view showing a disassembled state of the screw type base of the embodiment.

FIG. 4 is a cross-sectional view showing a state where the halogen bulb with a reflecting mirror of the embodiment is attached to a lighting fixture.

FIG. 5 is a sectional view of a halogen light bulb with a reflecting mirror showing a second embodiment of the present invention.

FIG. 6 is a cross-sectional view of a halogen light bulb with a reflecting mirror showing third and fourth embodiments of the present invention.

FIG. 7 is a sectional view of a halogen light bulb with a reflecting mirror showing a fifth embodiment of the present invention.

[Explanation of symbols]

1 ... Halogen bulb with reflector 2 ... Halogen bulb 3 ... Bulb 5 ... Sealing part 6 ... Infrared reflecting film 7 ... Filament 14, 15 ... Pin terminal 20 ... Reflector 21 ... Reflector body 22 ... Front glass 23 ... Reflective surface 24 ... Mounting tube portion 25 ... Adhesive agent 28 ... Recessed groove 30 ... Base 31 ... Base body 32 ... Screw type base 33 ... Eyelet terminal 34 ... Fixing hole 35 ... Adhesive agent 40 ... Lighting equipment body 41 ... Screw type socket

Continuation of front page (51) Int.Cl. ⁶ Identification number Office reference number FI Technical indication location H01K 1/32 Z 9508-2G 1/36 9508-2G 1/50 9508-2G

Claims (9)

[Claims] 1. A reflecting mirror having a reflecting surface formed on an inner surface thereof, and a mounting tube portion provided on a top surface of a rear surface thereof, and an end portion fixed to said mounting tube portion with an adhesive agent. Lamp, a pin terminal connected to the lamp and projecting from the end of the mounting cylinder, a fixing hole into which the mounting cylinder of the reflector is inserted, and a screw at the other end. A recessed base is attached,
A mounting cylinder portion of the reflecting mirror inserted into the fixing hole is fixed by an adhesive, and a pin terminal projecting from the mounting cylinder portion is connected to the screw-type base; and A lamp with a reflector, characterized in that a concave portion or a convex portion is formed on the outer surface of the mounting cylinder portion. 2. The lamp with a reflector as claimed in claim 1, wherein the lamp is a halogen bulb. 3. The infrared reflection film is formed on the surface of the lamp, as claimed in claim 1 or 2.
Lamp with a reflector as described in. 4. An interference film that transmits infrared rays and reflects visible light is formed on a reflecting surface of the reflecting mirror, according to any one of claims 1 to 3. Lamp with reflector. 5. The lamp with a reflector as claimed in claim 4, wherein an uneven surface is formed on the back surface of the reflector. 6. A front glass is attached to a front opening of the reflecting mirror, and an infrared reflection film is formed on a surface of the front glass. Lamp with a reflector as described. 7. A front glass is attached to the front opening of the reflecting mirror, and an interference film for blocking the transmission of ultraviolet rays is formed on the surface of the front glass. Lamp with a reflector as described in. 8. The reflection mirror forms an enclosure having a closed structure surrounding the lamp by closing the front opening of the reflection mirror with a front glass, and oxygen is enclosed in the enclosure. Any one of Claim 1 thru | or Claim 7 characterized by the above-mentioned.
Lamp with a reflector as described in. 9. A luminaire main body, a screw-type socket attached to the luminaire main body, and a screw-type mouthpiece screwed onto the screw-type socket to attach the luminaire main body to the luminaire main body. An illumination device comprising: the lamp with a reflecting mirror according to any one of claims 1 to 8.