JPS63282621A - One-dimensional infrared image sensing device - Google Patents

Abstract

PURPOSE:To obtain a small size instrument by using a small size display panel having MXN pieces of display elements for a display and integrating an image sensing device with the display. CONSTITUTION:Incident infrared rays collected by an infrared optical system, 11 are interrupted by a light chopper 12 and an electric signal output corresponding to a difference between the infrared radiation distribution of field of view and the radiation distribution of the chopper 12 is obtained by one-dimensional pyroelectric type infrared detecting elements 13. The electric signals are processed 14 to be made proportional to the infrared radiation of the field of view and displayed on an MXN liquid crystal display modules 16 as dots or a bar graph corresponding to the element outputs of the respective elements 13 by a controller 15. Since the controller 15 can be composed of an integrated circuit, a printed circuit and the like and the module 16 can be thin-sheet-wise formed, the optical system 11, the chopper 12, the elements 13 and a signal processor 14 constituting an image sensing device and the controller 15 and the modules 16 constituting the display can be integrated in a casing 17.

Description

DETAILED DESCRIPTION OF THE INVENTION Industrial Application Ark This invention relates to a one-dimensional infrared imaging device that acquires an infrared radiation distribution from an object in a non-contact manner.

2. Description of the Related Art Conventionally, this type of -dimensional infrared imaging device has been described, for example, in NIS P.I.E., Vol. 311, pp. 8-12, 1981 (
SP I E vol, 311, pp8-12.19
81), the configuration shown in FIG. 3 was known.

In Fig. 3, 31 is an infrared optical system, and 32 is an optical chopper.
, 33 is a one-dimensional pyroelectric infrared detection element, 34 is a signal processing section, and 35 is an external display device.

Next, the operation of the above conventional example will be explained.

The light collected by the infrared optical system 31 is interrupted by an optical chopper 32 and applied to a -dimensional pyroelectric infrared detection element 33 .

The added light is combined with the infrared radiation distribution in the field of view and the light chopper 32.
The output of the -dimensional pyroelectric infrared detection element 33 corresponds to the radiation distribution of this difference. This is the signal processing section 3
4 and is proportional to the infrared radiation in the field of view. This can be connected to an external display device 35, such as an oscilloscope, to observe infrared radiation in the field of view.

Problems to be Solved by the Invention However, in the conventional configuration as described above, the infrared optical system 31
, an optical chopper 32, a -dimensional pyroelectric infrared detection element 33, and a signal processing section 34 are separated into an imaging section 36 and an external display device 35, resulting in a large device.

Therefore, the present invention configures the imaging section and the display section as one,
The purpose is to provide a compact one-dimensional infrared imaging device.

Means for solving the problems and technical means of the present invention for solving the above problems are to integrate the image pickup section and the display section by using a small display panel having MXN display elements in the display section. It accomplishes its purpose.

Function: With the above configuration, the present invention can display the output obtained from the imaging unit as dots or bar graphs on the integrated display panel, and the distribution of infrared radiation in the field of view can be easily observed with a small device. It has been made possible.

EXAMPLES Hereinafter, examples of the present invention will be described with reference to the drawings. FIG. 1 is a schematic diagram showing the internal configuration of a one-dimensional infrared imaging device according to an embodiment of the present invention.

In Fig. 1, 11 is an infrared optical system, and 12 is an optical chopper.
, 13 is a one-dimensional pyroelectric infrared detection element, 14 is a signal processing section, and 15 is a controller for driving the MXN liquid crystal display module 16.

Next, the operation of the above embodiment will be explained.

The incident infrared light focused by the infrared optical system 11 is a light chopper.
12 and added to the -dimensional pyroelectric infrared detection element 13. The added light corresponds to the infrared radiation distribution in the field of view and the radiation distribution of the optical chopper 12, and the −dimensional pyroelectric detection element 1
As for the output No. 3, an electrical signal output corresponding to this difference can be obtained. This is processed by the signal processing unit 14 and made proportional to the infrared radiation in the field of view.

This output is input to the controller 15, and displayed as a dot or bar graph corresponding to each element output of the -dimensional pyroelectric infrared detection element 13 on the M liquid crystal display module 1.
Display on 6. The position of the dot or the length of the bar graph is proportional to the infrared radiation in the field of view applied to each of the one-dimensional pyroelectric infrared detection elements 13.

The controller 15 can be composed of an integrated circuit, a printed circuit, etc., and the MXN liquid crystal display module 16 can be composed of a thin plate.
The optical chopper 12, the -dimensional pyroelectric infrared detection element 13, the signal processing unit 14, the controller 15 and the M>(N liquid crystal display module 16 that constitute the display unit)
As shown in the figure, it can be integrated into one box 17.

Effects of the Invention As described above, according to the present invention, a compact one-dimensional infrared imaging device is provided by using a compact display panel having MXN display elements in the display section and integrating the imaging section and the display section. can do.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram showing the configuration of a one-dimensional infrared imaging device according to an embodiment of the present invention, FIG. 2 is a schematic external view of the device having the internal configuration of FIG. 1, and FIG. 3 is a conventional one-dimensional infrared imaging device. FIG. 1 is a schematic diagram of an imaging device. 11...Infrared optical system, 12... Optical chopper, 13...--dimensional pyroelectric infrared detection element, 1
4...Signal processing unit, 15...Controller, 16...MXN liquid crystal display module,
17...Box body. Name of agent: Patent attorney Toshio Nakao (1st person)
Figure 2 Figure 3

Claims (2)

[Claims] (1) An infrared optical system that receives incident infrared light, an optical chopper that intermittents the incident infrared light, and a one-dimensional pyroelectric infrared system that detects the interrupted incident infrared light as an electrical signal. A one-dimensional infrared imaging device comprising a detection element, a signal processing unit that processes the electrical signal, and a display panel that displays the signal processed signal, and is configured in one piece. (2) The one-dimensional infrared imaging device according to claim 1, wherein the display panel is a dot matrix liquid crystal display module having M×N display elements.