KR890001541B1 - An adjustment device of lense - Google Patents

Abstract

An adjustment device consists of the master lenses (12,13) which is slided on the guide rail, and field lenses (14,15). The first projecting devices (16,17) consist of one set of mirror, and change the direction of an image of the field lenses (14,15). The relay lens receives the image from the second projecting devices (18,19). The center of the master lenses (12,13) is controlled by the adjusters (36,37).

Description

Adjusting device for lens for stereoscopic imaging

1 (a), 1 (b) is a cross-sectional view and side view of the adjustment device of the lens for stereoscopic image shooting of the present invention, FIG. 2 is a cross-sectional view of a conventional lens, 3 is a explanatory drawing of a conventional lens, 4 is a photographic explanatory diagram of the three-dimensional image capturing lens of the present invention, Figure 5 is a film explanatory diagram of a three-dimensional image, Figure 6 is a perspective view explaining the projector of the stereoscopic image, Figure 7 is a perspective view, 8 is a film of a three-dimensional image by the adjusting device of the three-dimensional image shooting lens of the present invention, and FIG.

* Explanation of symbols for main parts of the drawings

10: Finder 11: Lens Box

12,13: Master lens 14,15: Wheeled lens

16,17: 1st projection mechanism 18,19: 2nd projection mechanism

20: Relay lens 36,37: Adjuster

The present invention relates to an adjusting device for a lens for stereoscopic image capturing stereoscopic shapes such as stereoscopic pictures.

Conventionally, in order to capture a stereoscopic image such as a stereoscopic image, the lens unit 30 is composed of a lens box 29 as shown in FIG. 2 and a master lens 28 at the front end of the lens box 29. ) Has been used in a camera body 26 having a finder 25 on which an image from the master lens 28 is projected.

That is, the two cameras 1 equipped with the lens 30 are positioned at the left and right positions X and Y as shown in FIG. 3, and the alternating lenses 25 of the left and right cameras 1 and 1 are alternately made of the master lens 28. The subject 2 was photographed separately from side to side while adjusting the correction position of 28 by moving the angle of the camera 1, 1. Thus, the filmed image is re-edited in a vertical direction with the center of the left and right slightly shifted from one film 31 as shown in FIG. 5, and then the projector 4 equipped with an oblique filter 3 as shown in FIG. The image of the film 31 is projected so that the left and right separate images, which are slightly displaced from the center, are visually sensed by the naked eye on the left and right through the diagonal filter 5 as shown in FIG. However, in order to shoot with this lens (3), the center positions of the two master lenses (28) and (28) must always coincide with each other, so it is necessary to adjust the center positions of the lenses while alternating the lens of two cameras. There is a new problem.

However, in order to solve the above problem, the present invention is to change the direction of the image by the two master lenses and the two sets of wheeled lenses and wheeled lenses that are slidably attached to the guide rail. A first projection apparatus composed of a set of mirrors, a second projection apparatus composed of a pair of upper and lower mirrors with the image from the first projection apparatus being a top and bottom image, and receiving images from the second projection apparatus In the lens for stereoscopic imaging, which is composed of a relay lens and a lens box incorporating them, an adjuster provided in the lens box and moving the center position of the master lens as a pinch. The scale for adjusting the center position of the master lens is composed of the finder in which the image from the lens of the lens is centered so that the center position of the master lens is aligned with the scale of the adjuster. In addition, the adjustment autonomy of the stereoscopic lens set by the adjuster is devised. Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

At the front end of the lens box 11 of FIGS. 1 (a) and 1 (b), the master lenses 12 and 13, one by one, are positioned at a distance similar to the distance between the left and right eyes, about 63 mm, and up and down. Set it at a position that is offset at appropriate intervals according to the film size, but the busta lenses 12 and 13 are attached to be slid to the guide rails 34 and 35 to adjust the center position by the adjusters 36 and 37. It can be moved as a pinch up, down, left and right, and also changes the projection direction by two sets of wheeled lenses 14 and 15 and its wheeled lenses 14 and 15 immediately behind the master lenses 12 and 13. A first projection device (16) (17) consisting of a set of mirrors is mounted, but the first projection device (16) (17) has a 45 degree angle with respect to the central axis of the lens box (11) having a hyper plane. Make an angle. In addition, on the central axis of the lens box 11 behind the first projection mechanisms 16 and 17, a second projection composed of a pair of top and bottom mirrors projecting the image from the first projection mechanism as the upper and lower ones. 18 and 19 are arranged so that the second projection mechanism 18, 19 is arranged such that the mirror surface having a hyperplane is perpendicular to the electric mirror and that the second projection mechanism 18, 19 is On the central axis of the lens box 11 is arranged a lens lens 20 receiving the image from the second projection mechanism (18, 19).

An example of the use of the present invention is as follows. As shown in FIG. 1 (a), the subjects B and C, which enter the left and right master lenses 12 and 13, first pass through the wheeled lenses 14 and 15, and thus are clearly imaged B ₁ and C due to the excellent image forming power of the wheeled lenses. Miss ₁ . Again, the images B ₁ and C ₁ are converted by the first projection mechanism 16 (17) composed of mirrors to maintain the mirror plane of the hyperplane and the second projection mechanism 18 (19) composed of the same mirror. By the relay lens 20, the brightness is doubled by the relay lens 20, and the amount of light lost by the wheeled lens and the mirror is compensated for. phase and the B _2, C ₂ on the film surface (7) form an image up and down integrally.

However, as shown in FIG. 9, when adjusting the adjusters 36 and 37 so that the images B ₂ and C ₂ are centered while looking at the finder 10, the center position of the master lenses 12 and 13 can be easily adjusted. Done. In addition, since the center distance in the horizontal direction of the two master lenses is about 63 mm, which is similar to the distance between the rearing eyes, as shown in FIG. As described above, in the present invention, since the adjustment of the center position of the two master lenses is adjusted by the third jaws in accordance with the adjustment scale of the binder, the images from the left and right master lenses of one lens box are imaged on the surface of the wheels. Since the configuration is such that the center position of the master lens at the time of shooting is easily adjusted, it is easy to adjust.

Claims (1)

Master lens 12, 13 attached to the guide rails 34, 35, and two wheeled lenses 14, 15 mounted behind the lens, and the projection direction of the image by this wheeled lens are converted. The second projection mechanism 18 and the projector which consist of two first projection mechanisms 16 and 17 which consist of a set of mirrors, and a pair of upper and lower mirrors which project the image which comes out from the mechanism into a top and bottom image. In the three-dimensional image photographing lens consisting of a relay lens 20 that receives an image from a sphere and a lens box 11 having the built-in lens, the lens box is provided in the lens box, and the adjuster moves the center position of the electric master lens as a pinch. And the focuser on which the center position adjustment scale of the master lens is projected from the lens of the center lens, and the center position of the master lens is adjusted by the adjuster according to the adjustment scale of the focuser. wren Adjustment device.

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