JPH01105132A - Infrared-light detector - Google Patents

Abstract

PURPOSE:To obtain a detector with superior operability by constituting an infrared-light detection plate, an exciting light emission part, a means which adjusts the intensity of exciting light, and an optical guide integrally in a holder. CONSTITUTION:The exciting light 12-1 emitted by a light emitting lamp 2 is coupled with an optical guide 6-2 from an end part 10 of the optical guide and emitted as exciting light 12-2 from an end part 7 of an optical guide 6-1. The infrared-light detection plate 1, on the other hand, is formed by applying an infrared-light detecting material 13 and arranged so that it is excited by the light 12-2. The optical guides 6-1 and 6-2 are connected at their end parts 8 and 9 and the exciting light control part 11 is adjusted to change connection conditions and also vary the intensity of the irradiation light 12-2. They are all integrated and put in the holder 4, so the holder 4 is held during operation to detect an infrared light beam 3. The substrate of the detection plate 1 is formed by weaving fine fiber made of glass or plastic or compressing it into a plane plate.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an infrared photodetector that displays the position of an infrared light beam as a spot on a flat plate.

BACKGROUND OF THE INVENTION Infrared light detectors are typically used to detect or track a beam of infrared light passing between adjacent optical instruments on an optical surface plate. .

FIG. 5 shows the configuration of a conventional infrared photodetector. In FIG. 5, l is an infrared light detection plate, 2 is an excitation light emitting section, and 3 is an infrared light beam to be detected.

As shown in Figure 5, in the conventional infrared photodetector,
The infrared light detection plate 1 and the excitation light emitting section 2 constituting the infrared light detector are not integrated, but are used separately. Furthermore, the infrared light beam 3 was detected using the infrared light detection plate surface irradiated with excitation light.

Therefore, even though the infrared light detection plate 1 and the excitation light emitting unit 2 are always used in combination, each must be operated separately on the surface plate, and many devices are densely arranged. There was a problem with the operability of the ridges on the surface plate. In addition, in a configuration in which the excitation light and detection light are received on the same surface, if there is an optical device immediately in front of the place to be measured, the excitation light from the excitation light emitting part will be blocked by the optical device and the red There was a problem in that the light beam could no longer reach the external light detection plate, making it impossible to detect the light beam.

Conventionally, a light emitting lamp has been used in the excitation light emitting section, but the light emission intensity of this lamp has been constant. Therefore, the intensity of light irradiating the infrared light detection plate has been adjusted by changing the distance between the excitation light emitting section and the infrared light detection plate and the angle of the infrared light detection plate. Therefore, in order to detect an infrared light beam, it was necessary to operate the infrared light detection plate while being aware of both the excitation light and the infrared light beam, which was inconvenient. Point) An object of the present invention is to provide an infrared photodetector with excellent operability.

(Means for Solving the Problems) The present invention provides an infrared light detection plate, an excitation light emitting section, a means for adjusting the intensity of excitation light, and a light guide that constitute an infrared light detector inside a holder. In addition, the excitation light and the infrared light to be detected are irradiated onto the infrared light detection plate from directions opposite to each other. An excitation light controller is used to control the excitation light, and a light guide is used to guide the excitation light.

That is, the present invention provides an infrared light detection plate that can detect the presence or absence of infrared light by irradiating it with excitation light, an excitation light emitting section 2 that emits the excitation light, means for adjusting the intensity of the excitation light, and a light guide that guides excitation light to the infrared light detection plate;
It has the infrared light detection plate at one end, and includes the excitation light emitting section, the light guide, and a holder having inside thereof a means for adjusting the intensity of the excitation light, and the two of the infrared light detection plates The excitation light is irradiated onto one of the surfaces, and the infrared light is detected on the other surface.

(Example) Fig. 1 is a surface for explaining the first example of the present invention,
4 is a holding body, 5 is a light source part, 6-1.6-2 is a light guide,
7, 8, 9, and 10 are ends of the light guide, 11 is an excitation light control section, 12-1, 12-2 is an excitation light, and 13 is an infrared light detection material. The excitation light 12-1 emitted from the luminescent lamp 2 is
It is coupled from the end 10 of the light guide to the light guide 6-2 and, after passing through the light guides 6-2 and 6-1, is emitted from the end 7 of the light guide as excitation light 12-2. On the other hand, the infrared light detection plate 1 is realized by coating an infrared light detection material 13 on a transparent or semi-transparent flat plate, and the end of the light guide is designed to be excited by the excitation light 12-2. It is located close to 7. The light guides 6-1 and 6-2 are connected at the end 8 of the light guide and the end 9 of the light guide, but by adjusting the excitation light control unit 11, the connection conditions there can be changed. be able to. Thereby, the intensity of the irradiation light 12-2 that irradiates the infrared light detection plate 1 can be changed. All such configurations are integrated and housed in one holder 4, so by holding and operating the holder 4, the infrared light beam 3 can be detected.

Note that the substrate of the infrared light detection plate 1 here can be realized by weaving fine fibers made of glass or plastic into a cloth shape or compressing them into a flat plate shape. If the substrate of the infrared light detection plate 1 has a smooth surface like a normal glass plate, it will be difficult for the infrared light detection material to adhere, but the adhesion can be improved by using the above-mentioned fine fibers. can do.

Since the first embodiment has such a structure, it is possible to easily detect an infrared light beam by simply holding and operating the holding part 4 attached to the infrared light detection plate. . Furthermore, it is possible to detect an infrared light beam even in a place where an optical device is located just in front of the place to be measured.

FIG. 2 is a diagram illustrating a second embodiment of the present invention. The difference between this embodiment and the first embodiment is that the infrared light detection material 13 is applied directly to the end 7 of the light guide 6-1, and the light source section 5 is separated from the holder 4. This is what is happening. Since the infrared light detection material 13 is applied directly to the end portion 7 of the light guide 6-1, the excitation light 12-2 is not emitted into space, so that the infrared light detection material 13 can be efficiently excited. can. On the other hand, since the light source section 5 is separated from the holder 4, the operability of the holder 4 can be improved. However, in this case, the main body of the holder 4 and the light source section 5 are connected by extending the light guide 6-2.

Since the second embodiment has such a structure, it is possible to easily detect an infrared light beam by simply holding and operating the holding part 4 attached to the infrared light detection plate. . Furthermore, it is also possible to detect an infrared light beam in a place where an optical device is located immediately in front of it.

Next 50 Rough 1 FIG. 3 is a diagram explaining the third embodiment of the present invention,
14 is a shielding plate for shielding the excitation light 12-1.

The difference between this embodiment and the first embodiment is that the inside of the holder 4 itself has the function of a light guide 6-1.6-2, and the excitation light 12-1.12-2 In order to control the intensity of the light, a shielding plate 14 is used instead of a light guide connection.

The excitation light 12-1 emitted from the light emitting lamp 2 propagates inside the holder 4, but since a part of it is blocked by the shielding plate 14, the rest becomes excitation light 12-2 and is detected by the infrared light detection plate. 1 will be excited. By operating the excitation light control section 11, the position of the shielding plate 14 can be changed, so the intensity of the excitation light 12-2 can be adjusted.

Since the third embodiment has such a structure, it is possible to easily detect an infrared light beam by simply holding and operating the holding part 4 attached to the infrared light detection plate. . Furthermore, it is possible to detect an infrared light beam even in a place where an optical device is located just in front of the place to be measured.

Figure 4 is a diagram illustrating a fourth embodiment of the present invention. The difference between this embodiment and the third embodiment is that the direction of incidence of the infrared light beam 3 to be detected is reversed, and that the position of the light emitting lamp 2 can be adjusted by the excitation light control section 11. It is. If the excitation light 12-2 and the infrared light beam 3 are placed on the side where the infrared light detection material 13 is applied, even if the substrate of the infrared light detection plate 1 is opaque, the infrared light can be efficiently detected. The external light beam 3 can be detected.

Excitation light 12-2 irradiates the infrared light detection plate 1 by adjusting the position of the light emitting lamp by operating the excitation light control unit 11.
intensity can be changed.

Since the fourth embodiment has such a structure, it is possible to easily detect an infrared light beam by simply holding and operating the holding part 4 attached to the infrared light detection plate. .

Although the above four embodiments have been shown, it goes without saying that these embodiments can be combined.

For example, by inserting the shielding mechanism 4 shown in FIG. 3 in the middle of the space in which the excitation lights 12-1 and 12-2 shown in FIG. The intensity can be adjusted. Also, Figure 1, Figure 3, Figure 4
In the figure), the surface of the infrared light detection plate 1 on which the infrared light beam 3 is incident may be the reverse side of the surface shown in the figure.

(Effects of the Invention) As explained above, the infrared photodetector of the present invention is small,
It is lightweight and easy to handle, making it easy to operate and expanding the detectable area even when detecting light in a crowded area on an optical surface plate with many devices installed. There is.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a first embodiment of the present invention, FIG. 2 is a block diagram of a second embodiment of the present invention, FIG. 3 is a block diagram of a third embodiment of the present invention, and FIG. This figure is a block diagram of a fourth embodiment of the present invention, and FIG. 5 is a block diagram of a conventional infrared detector. 1... Infrared light detection plate 2... Light emitting lamp 3...
・Infrared light beam 4 to be detected...holding part
5... Light source part 6-1.6-2... Light guide 7.8, 9.10... End part 11 of light guide... Excitation light control part 12-1, 12-2...・Excitation light 13
... Infrared light detection material 14 ... Shielding plate patent applicant Nippon Telegraph and Telephone Corporation Fig. 1 Fig. 3

Claims (1)

[Claims] 1. An infrared light detection plate that can detect the presence or absence of infrared light by irradiating it with excitation light, an excitation light emitting section that emits the excitation light, and means for adjusting the intensity of the excitation light. and a light guide that guides the excitation light to the infrared light detection plate, and a means for adjusting the intensity of the excitation light emitting section, the light guide, and the excitation light, the light guide having the infrared light detection plate at one end. and a holder held inside the infrared light detection plate, and one of the two faces of the infrared light detection plate is irradiated with the excitation light, and the other face is used to detect the infrared light. Infrared light detector. 2. Claim 1, wherein the infrared light detection plate is formed by coating an infrared light detection material on a transparent or translucent plate directly on the end of the light guide. Infrared photodetector described in section. 3. Claim 1, wherein the infrared light detection plate is formed by coating an infrared light detection material on a cloth-like substrate using fine fibers of glass or synthetic resin. Infrared photodetector described in section. 4. The infrared light detector according to any one of claims 1, 2, and 3, wherein the holder constitutes a light guide. 5. Claims 1 and 2, characterized in that the means for adjusting the intensity of the excitation light is based on changing the connection state of at least one connection part provided on the light guide. The infrared photodetector according to any one of Items 3 and 4. 6. Claims 1, 2, and 3, characterized in that the means for adjusting the intensity of the excitation light is a shielding plate.
The infrared photodetector according to any one of Items 1 and 4. 7. Among the claims 1, 2, 3, and 4, the means for adjusting the intensity of the excitation light is by moving the excitation light emitting unit or the light guide. , the infrared photodetector according to any one of the items.