JPH0498777A - Position retaining device of point light source lamp - Google Patents

Abstract

PURPOSE:To carry out positioning accurately in a short period of time, at the time of fixing a point light source lamp through a substrate by individually inserting plural pins for electrode of the point light source lamp, into pin inserting holes provided on the substrate, and whereby adjusting a stage. CONSTITUTION:Pin inserting holes 13a-13n whose diameter is larger enough for that of pins 7a-7n to be loosely fitted thereto, are provided in a concentric manner, on a substrate 11. The pins 7a-7n of a point light source lamp 1, are inserted into the corresponding pin inserting holes 13a-13n of the substrate 11. At the time, the side of a reflecting film 16 is correspondent to the side of the point light source lamp 1. A stage is adjusted while the pins 7a-7n are loosely fitted to the pin inserting holes 13a-13n, and a certain positioning of an electron convergence part 9, is carried out. After precise positioning is carried out, the pins 7a-7n are fixed to soldering fixing parts 17a-17n by a solder 18, and the point light source lamp 1 is thus mounted on the substrate 11.

Description

DETAILED DESCRIPTION OF THE INVENTION ``Industrial Application Field'' The present invention relates to a position holding device for a point light source lamp that enables installation with high positional accuracy.

``Prior Art'' As point light source lamps, for example, button stem type deuterium lamps (1) as shown in FIGS. 8 and 9, hollow cathode lamps, and the like are conventionally known.

For example, this deuterium lamp (1) has a shielding electrode (3), an anode (4),
The cathode (5) is housed, and the bottom is sealed with a disk-shaped button stem (6) made of hard glass, and the button stem (6) has a plurality of electrode holding pins (7a) to (7n) arranged concentrically therein. the pins (7a) to (7n) and the respective electrodes (3), (4), and (5) are internally connected to each other by airtightly penetrating the top and bottom;
Further, an electron converging part (9) having a small hole (8) is formed at the center of the shielding electrode (3).
), the anode (4) is disposed so as to face the inside of the electron converging section (9), a light transmission hole (10) is opened in front of the shielding electrode (3) in the light emitting region of the electron converging section (9), and A cathode (5) is arranged at a position shifted from the light emitting region.

In the deuterium lamp (1) as described above, the diameter of the small hole (8) of the electron convergence part (9) is 0.4 to 2. Since this is a point light source lamp with an extremely small size of Omφ, high positional accuracy is required when this point light source lamp is incorporated into an optical system.

Conventionally, there have been two methods to meet such demands.

The first method is to set a point light source lamp on a stage in advance, and adjust and align the optical system while it is set on the stage.

Second, as shown in FIGS. 8 and 9, a flange-shaped substrate (11) made of aluminum or the like with high positional accuracy and heat resistance is prepared in advance, and a point light source lamp (1) is set on a stage. It is attached to the substrate (11), the stage is adjusted, and when the electron converging part (9) is accurately aligned with the predetermined position with respect to the optical system, it is fixed with adhesive (12), and then this point light source lamp ( 1) and a substrate (11) that are fixed together are set in an optical system.

"Problems to be Solved by the Invention" The first method, in which a point light source lamp is set on the stage and aligned by adjusting the stage, has low positional accuracy and is not suitable when high precision is required. .

A second method of fixing the point light source lamp (1) using the substrate (11) is to use a substrate (11) made of aluminum or the like that has heat resistance and high positional accuracy.
When fixing the point light source lamp (1) to the optical system, first set the substrate (11) in the optical system, attach the point light source lamp (1) set on the stage to this substrate (11), and then adjust the stage. When the electron focusing part (9) is aligned with the predetermined position with respect to the optical system, an adhesive (12) made of a heat-resistant thermosetting adhesive such as epoxy or an inorganic adhesive such as alumina is filled. and hardened it. However, since it takes a long time (more than 10 minutes) for such heat-resistant adhesives to harden after being heated in an electric furnace, the position of the point light source lamp (1) may shift. There was a problem in that it required a long period of attention and the workability was extremely poor. Furthermore, when inorganic adhesives are used in glass containers, there is a problem in that the containers may crack due to their different coefficients of expansion.

An object of the present invention is to provide a point light source lamp that can be accurately aligned in a short time when a point light source lamp is fixed with a substrate interposed therebetween.

"Means for Solving the Problems" The present invention provides a point light source lamp position holding device in which a point light source lamp is fixed to a flange-shaped substrate, wherein the substrate is made of an insulating plate, and a part of the insulating plate has a A solder fixing part is provided for independently inserting and positioning a plurality of electrode pins of a point light source lamp and then holding them by soldering.

"Operation" The flange-shaped substrate is made of heat-resistant resin, and a reflective film is formed on one surface of the substrate to reflect ultraviolet rays from the lamp. Insert the multiple electrode pins of the point light source lamp independently into the pin insertion holes drilled in the board, adjust the stage to accurately position the point light source, and then solder the point light source lamp to the board. Fixed to. In this way, the substrate with the point light source lamp attached is set in the optical system.

"Example" Hereinafter, one embodiment of the present invention will be described based on the drawings.

Note that the same parts as in the conventional example are given the same reference numerals.

In Figure 1, (1) is a point light source lamp such as a button stem type deuterium lamp, and this point light source lamp (1) is the 8th point light source lamp.
Similar to Figures and Figure 9, there are a shielding electrode (3), an anode (4), a cathode (5), and an electron focusing part (9) in a transparent glass container (2).
For example, eight electrode holding pins (7a) to (7n) are provided concentrically penetrating the button stem (6), and each of the electrodes (3) (4) (5 )
is connected to. Note that the point light source lamp (1) is not limited to the button stem type, but may also be a flat pincher stem type in which a plurality of pins are lined up in a row, for example.
Other examples will be described later.

Next, (11) is a flange-like board, and this board (11)
) is a disc having a diameter slightly larger than the diameter of the container (2), and is made of a heat-resistant polymer resin. in particular,
The deuterium lamp, which is a point light source lamp (1), emits 15
Since the temperature reaches 0°C or higher, the substrate (11) is also required to withstand this temperature, such as epoxy resin with heat resistance of 150°C or higher, polyimide resin with heat resistance of 160'C or higher, polyethersulfone (PES), etc. resin, polyetherimide (PEI) resin, liquid crystal polymer (LCP)
) Resin etc. are used. Further, it is also possible to use FRP mixed with glass fiber or the like to strengthen the resin.

This substrate (11) has pin insertion holes (
13a) to (13n) are bored concentrically. Note that in the center is a hollow hole (15) of the gas venting projection (14). The resin constituting this substrate (11) is a point light source lamp (
1) A metal reflective film (16) is placed on one side of the substrate (11) to prevent deterioration due to ultraviolet rays emitted from the substrate (11).
form. However, in order to prevent pins (7a) to (7n) from short-circuiting, the pin insertion holes (13a) to (1
3n), no reflective film (16) is formed on the outer periphery. Moreover, the pin insertion hole (1) on the other surface of this board (11) is
3a) to (13n) are soldered on the outer periphery and inside.Sn g P b HB iHCu + A
ur A g HZ n or at least one of these
The solder fixing part of the metal coating made of an alloy including types (17
a) to (17n) are formed.

In the above configuration, the pins (7a) to (7n) of the one-point light source lamp (1) are inserted into the corresponding pin insertion holes (13a) to (13n) of the substrate (11). At this time, the reflective film (16) side should be the point light source lamp (1) side.

Insert pins (7a) to (7n) into pin insertion holes (13a) to (1).
Adjust the stage while loosely fitting it into the electron convergence part (3n).
9) Perform the predetermined positioning. After accurate positioning, fix the pins (7a) to (7n) to the soldered fixing parts (17a) to (17n) with solder (18) and attach the point light source lamp (1) to the board (11). . This fixing is completed in about 1 minute.

Next, an example in which the point light source lamp (1) attached to the substrate (11) is further attached to the pedestal (19) will be explained with reference to FIG. This pedestal (19) includes a cylindrical portion (20) having an inner diameter such that the substrate (11) fits therein;
) consists of a bulging locking step (21) on the inside and a flange (22) formed on the outside, and is made of aluminum, resin, or the like. This pedestal (19) is attached to the board (11) in advance.
The container (2) fixed to the base plate (2) is fitted over the container (2) from above, and the locking step (21) and the edge of the base plate (11) are engaged. Then, the gap between the bottom of the container (2), the pedestal (19), and the substrate (11) is filled with adhesive (23) and fixed. Depending on the purpose, the pedestal (19) may be used upside down, that is, with the flange (22) facing upward.

If it is inconvenient for the pins (7a) to (7n) to protrude from the bottom of the pedestal (19) when setting it in the optical system, as shown in FIG. Part (20
) A lead wire lead-out notch (24) is formed on the side of the lead wire (25a) and the lead wire (25a) is connected to the pins (7a) to (7n).
~(25n) may be led out from the side, and a bottom hole (26) may be fitted and fixed to the bottom of the cylindrical portion (20).

Next, FIG. 6 shows an example in which the substrate (11) and the pedestal (19) are integrally fixed. In this case, a reflective film (16) is formed on the upper surface of the substrate portion (11), and a solder fixing portion (17) is formed on the lower surface.
The formation of a) to (17n) is the same as in the previous example. In addition, in the example shown in FIG. 6, if the pedestal (19) has a flange (22) facing upward and a pedestal (19) having the flange (22) facing downward (inverted vertically), they can be used as appropriate depending on the purpose. In this case, the first reflective film (16) is always on the top surface, and the solder fixing parts (17a) to (17n) are always on the bottom surface.

Next, Fig. 7 shows a flat pincher at the bottom of the container (2).
An example is shown in which a stem is formed and pins (7a) to (7n) are arranged in a negative row. In this example, the substrate (11)
There is no difference from the button stem type except that the pin insertion holes (13a) to (13n) are formed in the - row.

[Effects of the Invention] Since the present invention is configured as described above, the light emitting point of a deuterium discharge tube or other point light source lamp can be easily and accurately aligned. Furthermore, when resin is used as the substrate material, deterioration due to radiation can be prevented by forming a reflective film on the surface. Therefore, even a resin substrate has the same durability as a metal plate.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing a first embodiment of the device according to the present invention;
FIG. 2 is a plan view of the substrate in FIG. 1. FIG. 3 shows the top and bottom surface of the same, FIG. 4 is a cross-sectional view of the second embodiment of the present invention, FIG. 5 is a cross-sectional view of the third embodiment of the present invention, and FIG. 6 is a fourth embodiment of the present invention. FIG. 7 is a sectional view of the fifth embodiment of the present invention.
A cross-sectional view of the embodiment, FIG. 8 is a longitudinal cross-sectional view of a conventional device, and FIG.
The figure is a cross-sectional view of the same as above. (1) Point light source lamp (deuterium discharge tube), (2)
・Transparent container, (3)...shielding electrode, (4)...anode, (5)...cathode, (6)...button stem, (7a)~
(7n)...Pin, (8)...Small hole, (9)...Electron convergence part, (10)...Light transmission hole, (11)...Substrate, (
12)...Adhesive, (13a)-(13n)...Pin insertion hole, (14)...Gas vent penetration, (15)...
Shadow hole, (16)... Reflective film, (17a) to (17n
)...Solder fixing part, (18)...Solder, (19)...
・Pedestal, (20)... Cylindrical part, (21)... Locking step part, (22)... Flange part, (23)... Adhesive, (2
4)...notch, (25a) to (25n)...lead wire, (26)...bottom hole. Applicant: Hamamatsu Photonics Co., Ltd. -2 Agent: Patent Attorney Toshiaki Furusawa - Teddo 1st Patent Attorney: Kano -12

Claims (3)

[Claims] (1) In a point light source lamp position holding device in which a point light source lamp is fixed to a flange-shaped substrate, the substrate is made of an insulating plate, and a part of this insulating plate has a plurality of electrode pins of the point light source lamp. 1. A position holding device for a point light source lamp, characterized in that a solder fixing part is provided for independently inserting and positioning the lamps and then holding the lamps by soldering. (2) The point according to claim (1), wherein the solder fixing part is formed by forming a metal film that is bonded with solder on the outer circumference of the pin protruding side of the pin insertion hole formed in the substrate and on the inside of the pin insertion hole. Light source lamp position holding device. (3) An ultraviolet reflecting film is formed on one surface of the substrate facing the point light source lamp or (1) or (3).
2) The position holding device for the point light source lamp described above.