JPS60104713U - Stereophoto observation device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Brief explanation of drawings]

Figure 1 is a diagram explaining the principle of three-dimensionally measuring the height of a point of interest on a film in a conventional stereoscopic photographic observation device, and Figure 2 is an illustration of a stereoscopic photographic observation device that is an embodiment of this invention. Fig. 3 is an external perspective view of the operating/measuring mechanism of the television camera; Fig. 3 is an external perspective view of the arithmetic/display section consisting of the arithmetic mechanism of the above device and the receiver of the X-ray television system observation mechanism; Fig. 4 is the circuit configuration of the above device. FIG. 5 is a front view of two television receivers of the above apparatus, and FIG. 6 is an explanatory diagram of the principle of stereophotographic observation and measurement of this invention. S...X-ray tube focus transition distance, D...Focus-to-field distance, lum distance 1, A, B...Object area interest point, W...・・・↓ Misalignment of the points of interest of the target area on the paired films, 4. z2...Height spatial position on the film of the point of interest in the target region), 2, 3.
...A pair of film observation panels, 4, 5...
...Pair of films L, R, 6...- Film X coordinate of TV camera, operation/measuring mechanism. Movement mechanism, 7. 8...a pair of television cameras,
9゜10...Television camera operation/measurement mechanism film 'y-coordinate moving mechanism, 12...Television camera movement operation control panel, 13, 14...1 pair of televisions Receiver, 18...Microcomputer, 18D...CRT-display, MA, MB
--- Target region imaging magnification rate, ■ --- Spatial distance between target region interest points A and 8.

Claims (1)

[Scope of utility model registration request] In an apparatus that measures the spatial position of a target part of a subject using a pair of stereoscopic observation element X-ray photographic films, 1. The pair of photographic films are placed side by side, the target part of this photographic image is enlarged, and the part is measured. a television-based observation mechanism consisting of a pair of television cameras that aim and photograph points of interest; a pair of television receivers corresponding to the television cameras; A pair of television cameras are placed parallel to the plane of the photographic film, and when aiming the point of interest at the intersection of the marker lines on the television screen, the reference point at the center of the film is used as the coordinate origin, and the X and Y coordinates are respectively
Regarding the coordinates, there is a second television camera operating/measuring mechanism that moves the coordinates during one interrogation and measures the distance traveled, and the object in the pair of photographic films is determined based on the distance measured by the television camera operating/measuring mechanism. The gap νW between the region interest points
and a calculation mechanism that calculates and outputs the height 2 of the flash center point on the film from the X-ray tube focus transition distance S and the focal point-film distance determined during stereoscopic imaging. A stereoscopic photographic observation device.