JPS6124644B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an automatic brightness level adjustment device for a thermography apparatus that optically scans an object and displays an infrared image of the object on a cathode ray tube.

In a thermography device, an object is optically scanned, and the temperature signal detected from the object through the scanning is used as a brightness modulation signal for a display device such as a cathode ray tube. At the same time, an electron beam is emitted on the cathode ray tube in synchronization with the scanning. The brightness of the infrared image of the object displayed on the cathode ray tube, which is scanned and displayed on the cathode ray tube, must be adjusted to be suitable for observation with the naked eye or photographic observation. Conventionally, this automatic setting of the brightness level was simply set so that the average value level of the temperature signal spread over the entire screen became the center level of brightness, so the temperature signal from the background part of the screen was also set to the center level. This will contribute to the setting, and if the temperature of the background part is significantly different from the subject part you want to observe, or if the background part is relatively large compared to the subject part, observe the subject at the optimal brightness level. It was a big deal.

The present invention was made to solve these drawbacks, and provides a new automatic brightness level adjustment device for thermography equipment.

FIG. 1 is a block diagram of an automatic brightness level adjustment device showing one embodiment of the present invention. In the figure, reference numeral 1 denotes a scanning signal generating circuit that generates scanning signals for an optical scanning mechanism (not shown), and a sawtooth horizontal scanning signal 2 as shown in FIG.
The negative terminal of b, the vertical scanning signal 3 is sent to the comparator 6c.
It is supplied to the positive terminal of 6d and the negative terminal of 6d. The other terminals of the comparators 6a, 6b, 6c, and 6d each have an upper limit value E1 and a lower limit value of the horizontal scanning signal ₂ when scanning the central portion 5 of the entire scanning range 4 on the cathode ray tube screen as a reference voltage signal. E ₂ , and voltages V ₁ , V ₂ , V ₃ , and V ₄ that are equal to the upper limit value E ₃ and lower limit value E ₄ of the vertical scanning signal 3, respectively, are supplied. Therefore, the comparators 6a, 6b, 6c and 6d
, when the voltage signal supplied to each terminal is smaller than the upper limit value _E1 , the lower limit value
The output signal is supplied to the AND circuit 7 only when it is larger than E ₂ , smaller than the upper limit E ₃ , and larger than the lower limit E ₄ . 8 is a switch that is turned on only when a signal is supplied from the AND circuit 7, and converts the temperature signal detected from the infrared detector (not shown) in the optical scanning mechanism and amplified by the amplifier 9 to the average temperature. Supplied to the detection circuit 10. The circuit consists of an integrator, and the resistor and capacitor values are determined so that the product of the resistor R and the capacitor c corresponds to the area of the central portion 5 of the entire scanning range 4 on the cathode ray tube screen. A switch 11 is turned on only when a vertical blanking signal is supplied from the scanning signal generating circuit 1 via the one-shot multivibrator 12, and the signal from the average temperature detecting circuit 10 is sent to the storage circuit 13 as a center temperature signal. supplied to The center temperature signal from the storage circuit and the temperature signal from the optical scanning mechanism (not shown) via the amplifier 9 are sent to a differential amplifier 1, respectively.
4's negative terminal - and positive terminal +. 15 is the output signal of the differential amplifier 13 so that the cathode ray tube shines at exactly the center brightness when the output level of the differential amplifier 14 is zero (that is, the temperature signal from the amplifier 9 matches the center temperature). The signal adjusted by the output adjustment circuit 15 is supplied to the cathode ray tube as a brightness modulation signal. 16 is a one-shot multivibrator which generates a pulse in synchronization with the falling edge of the pulse signal from the one-shot multivibrator 12, and which generates a pulse in synchronization with the fall of the pulse signal from the one-shot multivibrator 12, and collects the charge charged in the capacitor c of the integrator of the average temperature detection circuit 10. Turn on switch 17 for discharging.

In such an automatic brightness level adjustment device,
Since the switch 8 is turned on by the signal from the AND circuit 7 only during the period when the central part 5 on the cathode ray tube screen is being scanned, the average temperature detection circuit 10
A temperature signal is supplied via an amplifier 9 from an optical scanning mechanism (not shown). In the average temperature detection circuit, the input Vxiyi is integrated by the integrator and the output Vxoyo is Vo=-1/cR∫ ^{E1 (F3)} _{E2 (E4)} Vx
iyidxy, so if the values of C and R are determined so that 1/cR becomes the area of the central portion 5 on the CRT screen, then in this circuit, the average temperature signal of the central portion 5 on the CRT screen is integrated. will be done. The average temperature signal obtained by the integration is calculated by supplying a vertical blanking signal from the scanning signal generation circuit 1 to the switch 11 via the one-shot multivibrator 12, so that the center temperature is determined during the vertical retrace period after one screen scan. It is stored in the storage circuit 13 as the signal Vc. The accumulated signal Vc is sent to the differential amplifier 14
is supplied to the negative terminal of Since the temperature signal Va is supplied to the positive terminal of the differential amplifier via the amplifier 9 from an optical scanning mechanism (not shown), (Va-Vc) is generated as the output of the differential amplifier. The signal (Va-Vc) is applied as a brightness modulation signal to the cathode of the cathode ray tube via the output adjustment circuit 15. Therefore, the infrared image on the cathode ray tube is the average temperature detection circuit 1.
The average temperature signal from 0 is displayed as a center temperature signal (as a signal giving the center brightness of the cathode ray tube).

If a temperature signal center level display device 18 is connected between the storage circuit 13 and the differential amplifier 14, the level of the center temperature signal can be observed for monitoring purposes.

In view of the fact that the infrared image of the subject is generally displayed approximately in the center of the CRT screen, the present invention
The brightness is automatically adjusted so that the average value of the temperature signal of only the center part becomes the center temperature signal, so if the temperature of the background part is greatly different from the subject part you want to observe, or Even when the background portion is relatively large, a subject image adjusted to optimal brightness can be displayed on the cathode ray tube.

In this explanation, the central part is taken as the central part, but the range 5 surrounded by the four sides can be arbitrarily moved from the central part to other parts according to the shape of the subject, and the average value of the temperature signal only in this part is the central temperature signal. You can also automatically adjust the brightness so that

[Brief explanation of the drawing]

FIG. 1 shows an automatic brightness level adjustment device for a thermography apparatus according to an embodiment of the present invention, and FIG. 2 shows a scanning range on a cathode ray tube screen. 1...Scanning signal generation circuit, 5...Central portion of the entire scanning range 4 on the cathode ray tube screen, 6a, 6b, 6c
and 6d... comparator, 7... AND circuit,
8, 11...Switch, 10...Average temperature detection circuit, 14...Differential amplifier, 15...Output adjustment circuit.

Claims (1)

[Claims] 1. Optically scan a subject to detect infrared rays from the subject, supply this detected temperature signal to display means to display an infrared image, and display the infrared image of the subject to be displayed on the display device. In a device for adjusting a brightness level, means for specifying an arbitrary area on a screen of a display device, means for extracting a temperature signal obtained while scanning the specified area, and an average value of the extracted temperature signal. and a means for supplying a difference between the calculated average value and a temperature signal obtained by optically scanning the object to a brightness modulation system of the display device. .