KR20010000642U - binocular - Google Patents

Abstract

The binocular focusing lever and diopter correction lever may be arranged on the same axis, and the objective lens may be moved and adjusted to simplify the structure of the eyepiece, which lacks space, and may simplify the structure. In addition, the axial distance between the left and right optical systems can be narrowed, thereby miniaturizing.

Description

Binoculars {binocular}

The present invention relates to a binocular, and more particularly to a focus adjustment knob for adjusting the focus of the binocular and a trial correction knob for correcting the deviation of the trial.

In general, binoculars are a mechanism for obtaining a magnified image of a subject by having a pair of objective lenses and a pair of eyepieces for observing a distant subject. A pair of objective lenses and eyepieces are provided to the left and right eyes of the user. It is mounted on the left and right barrels to face each other. If the central axes of the eyepiece and the objective lens do not coincide with each other, a prism is disposed between the eyepiece and the objective lens.

Accordingly, the image of the remote object passes through the objective lens and the optical axis is switched by the prism to be incident on the eyepiece so that the user can observe the enlarged image of the subject.

Such binocular structures are shown in US Pat. No. 5,822,115. In the above-described technique described in US Patent No. 5,822, 115, the objective lens is adjusted to adjust the focus according to an object, and one side of the left and right objective lenses is moved to correct the correction, but the focus adjustment knob and the correction correction knob are not coaxial. The structure is shown diagonally off the axis of the focusing lever.

The above-described binoculars have limitations in narrowing the distance between the axes of the left and right optical systems, which makes it difficult to miniaturize the binoculars.

The present invention has been made to solve the problems of the prior art, the object of the present invention is to reduce the axial spacing of the left and right optical system of the binoculars to achieve miniaturization, to simplify the configuration to improve the assembly.

The present invention to achieve the above object,

Left and right bodies forming an appearance;

Left and right eyepieces respectively coupled to the left and right bodies;

Left and right objective lenses coupled to the barrels disposed inside the left and right bodies, respectively;

Left and right upright prisms coupled between the left and right eyepieces and the left and right objective lenses;

A focus adjusting means disposed at an intermediate portion between the left and right objective lenses and including a knob for adjusting the focus by moving the left and right objective lenses in the optical axis direction;

An attempt correction means arranged on the same axis as the knob provided in the focus adjustment means and correcting the deviation by shifting the left and right objective lenses in the optical axis direction:

Provides binoculars that include.

1 is a perspective view showing the appearance of the binoculars for explaining an embodiment according to the present invention,

Figure 2 is an exploded perspective view showing the exploded binoculars for explaining an embodiment according to the present invention,

3 is an exploded perspective view illustrating an exploded view of the binoculars to explain the main part of the present invention;

4 is a cross-sectional view of an essential part for explaining an operating state according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing the appearance of the binoculars for explaining an embodiment according to the present invention, Figure 2 is an exploded perspective view showing the exploded view of Figure 1, the body (1, 3) disposed on the left, right It is shown. The barrels 4 and 6 are arranged inside the bodies 1 and 3 described above, and the objective lenses 5 and 7 are coupled to the front left and right sides of the barrels 4 and 6, respectively. The eyepieces 9 and 11 are coupled to the rear side of (1, 3). In addition, the focus adjustment knob assembly 13 is rotatably coupled to the eyepieces 9 and 11 at the center of the body 1 and 3, and the diopter correction knob assembly 15 is at the objective lens 5 and 7 of the center. ) Is arranged with the same axis as the focusing knob assembly 13 described above.

In addition, between the objective lenses 5 and 7 and the eyepieces 9 and 11, upright prism assemblies 17 and 19 are coupled to the bodies 1 and 3, respectively. Since the center prisms of the objective lenses 5 and 7 and the eyepieces 9 and 11 do not coincide with the upright prism assemblies 17 and 19, the images coming through the objective lenses 7 and 9 are the eyepieces 9 and 11. It functions to make a decision. In particular, the above-described objective lenses 5 and 7 are movably coupled in the optical axis direction.

3 is an exploded perspective view for explaining in detail the structure of the focus adjustment means for adjusting the focus of the subject and the attempt correction means for correcting the deviation.

First, the focus adjusting means is rotatably coupled to the focus adjusting knob assembly 13 on the bodies 1, 3. The focus adjusting knob assembly 13 includes a focus adjusting knob 13a and an extension portion 13b formed in the center of the focus adjusting knob 13a in the optical axis direction. The extension part 13b is threaded on the outer periphery, and the extension part 13b mentioned above is screwed with the barrel support shaft 21. The above-described barrel support shaft 21 is arranged in the optical axis direction, and a groove penetrating in the longitudinal direction is formed in the central portion thereof, and a thread is formed on the inner circumferential surface of the groove. It is fixedly coupled to the left objective lens 5 (refer to FIG. 3) on the outer circumferential surface of the barrel support shaft 21. The right objective lens 7 (refer to FIG. 3) is coupled with the coarse correction connector 23, which is screwed with the barrel support shaft 21. Therefore, the left and right objective lenses 5 and 7 are moved in the optical axis direction by the rotation of the focusing lever 13a.

In addition, the attempt correction means is rotatably coupled to the body (1, 3), the attempt correction knob assembly 15, the attempt correction knob assembly 15 is the attempt correction knob 15a, and the attempt correction knob 15a The spline extension part 15b which extended the center axis | shaft of () is provided. The spline extension 15b is coupled to the dioptric correction connector 23 described above. The dioptric correction connector 23 has a groove in which the spline extension part 15a can be inserted in the longitudinal direction at the center thereof, and a thread is formed on the outer circumferential surface thereof so as to be screwed with the barrel support shaft 21. In addition, on the outer circumference of the dioptric correction connector 23, a feed groove 23a is formed so as to be slidably coupled to the objective lens barrel feed connecting portion 7a which is connected to the barrel 6 of the right objective lens 7. Therefore, the objective lens barrel feed connecting portion 7a is slidably coupled to the feed groove 23a.

Focus adjustment and trial correction of the binoculars configured as described above will be described in detail with reference to FIG. 4.

First, when a user of the binoculars rotates the focus adjustment knob 13a in the direction of the arrow, the binoculars are rotatably fixed to the bodies 1 and 3 to rotate in place. The extension part 13b rotates with the rotation of the focus adjustment knob 13a, and the barrel support shaft 21 screwed with the extension part 13b rotates with the rotation of this extension part 13b, and the optical axis rotates. Will be moved in the direction. As the barrel support shaft 21 is transferred, the left objective lens 5 connected thereto is also moved in the optical axis direction. In addition, since the dioptric correction connector 23 is screwed with the barrel support shaft 21 and moves together in the optical axis direction, the right objective lens 7 connected with the dioptric correction connector 23 is also moved in the optical axis direction. In this case, the left and right objective lenses 5 and 7 are moved by the same distance according to the feeding degree of the barrel support shaft 21 to adjust the focus.

The attempt correction is performed by rotating the attempt correction knob 15a. When the attempt correction lever 15a is rotated, the spline extension 15b is rotated and the attempt correction connector 23 is rotated to move in the optical axis direction. At this time, the attempt correction connector 23 is to move relative to the barrel support shaft (21). Therefore, the objective lens barrel feed connecting portion 7a is moved while the dioptric correction connector 23 is moved, and the diopter is adjusted while the left objective lens 7 connected thereto is moved relative to the right objective lens 5.

Therefore, the present invention allows the focus adjustment knob 13a and the dioptric correction knob 15a to be arranged on the same axis, thereby enabling focus adjustment and dioptric correction.

The present invention can simplify the structure of the eyepiece having insufficient space by correcting the deviation of the eye by moving the objective lens, and simplify the structure by arranging the focusing lever and the eye correction lever to be coaxially arranged. In addition, the axial distance between the left and right optical systems can be narrowed, thereby miniaturizing.

Claims (3)

Left and right bodies forming an appearance; Left and right eyepieces respectively coupled to the left and right bodies; Left and right objective lenses coupled to the barrels disposed inside the left and right bodies, respectively; Left and right upright prisms coupled between the left and right eyepieces and the left and right objective lenses; A focus adjusting means disposed at an intermediate portion between the left and right objective lenses and including a knob for adjusting the focus by moving the left and right objective lenses in the optical axis direction; Trial correction means arranged on the same axis as the knob provided in the focus adjustment means and correcting the trial deviation by relatively moving the left and right objective lenses in the optical axis direction; Binoculars including. The method of claim 1, wherein the focusing means A focus adjustment knob assembly having a focus adjustment knob rotatably coupled to the left and right bodies, and an extension portion extending in the optical axis direction at a central portion of the focus adjustment knob and having threads formed on an outer circumference thereof; A barrel support shaft which is screwed to move in an optical axis direction with an extension of the focus adjustment knob assembly and is connected to the left and right objective lenses; Equipped with binoculars. The method of claim 1, wherein the attempt correction means A dioptric correction knob assembly including a dioptric correction knob rotatably coupled to the left and right bodies, and a spline extension extending in the optical axis direction at the center of the dioptric correction knob; A dioptric correction connector coupled to the spline extension of the dioptric correction knob, rotated by the spline extension, coupled to a left or right objective lens on one side thereof, and having a thread formed on an outer circumference thereof to be screwed to the barrel support shaft; Binoculars equipped with.