JPH0438329Y2 - - Google Patents

Description

[Detailed Description of the Invention] "Technical Field" The present invention relates to binoculars, and particularly to the structure of the eyepiece portion thereof.

"Prior art and its problems" In conventional binoculars, the eyepiece lens frame is screwed onto a fixed frame of the eyepiece, and the diopter is adjusted by rotating and moving the frame in the direction of the optical axis. It's summery. However, the eyepiece frame is usually provided with a light-shielding eyepiece to determine the eyepoint and prevent ambient light from entering to make the image easier to see.
When the eyepiece frame is rotated, this light-shielding eyepiece also rotates. For this reason, in conventional binoculars, the shape of the light shielding eyepiece is limited to a cylindrical shape, and it is not possible to form the light shielding eyepiece in a shape that fits the complex shape of a person's face. Furthermore, the conventional light-shielding eyepiece moves in the optical axis direction when the diopter is adjusted, and therefore, its position cannot be freely adjusted. This makes it inconvenient to use, especially for people who wear glasses.

``Purpose of the invention'' The present invention solves these problems with conventional binoculars, and has a binocular eyepiece structure in which the eyepiece frame does not rotate even when the diopter is adjusted, and the light shielding eyepiece also does not rotate. The purpose is to obtain. A further object of the present invention is to obtain an eyepiece structure for binoculars that can adjust the position of the light-shielding eyepiece in the optical axis direction.

``Summary of the invention'' This invention replaces the conventional method of screwing the eyepiece frame to a fixed frame, and instead supports the eyepiece frame so that it can move in the optical axis direction by restricting its rotation to the fixed frame of the eyepiece. death,
A non-cylindrical light-shielding eyepiece is supported on the eyepiece frame so as to be rotationally restrained and movable in a straight line between a pushed-in position at the front in the optical axis direction and a pulled-out position at the rear. A diopter adjustment ring is rotatably fitted, and an interlocking mechanism is provided for interlocking the diopter adjustment ring and the eyepiece frame so that the rotation of the diopter adjustment ring causes the eyepiece frame to move in the optical axis direction. It is characterized by

``Embodiments of the invention'' The invention will be described below with reference to illustrated embodiments. In the fixed frame 11 of the eyepiece part of the binoculars, an eyepiece lens 1 is installed.
An eyepiece lens frame 13 supporting the eyepiece 2 is slidably fitted. On the outer periphery of this eyepiece frame 13,
A guide pin 14 protruding in the radial direction is screwed and fixed, and this guide pin 14 protrudes to the outside through a linear guide groove 15 in the optical axis direction formed in the fixed frame 11. Due to the relationship between the guide pin 14 and the linear guide groove 15, rotation of the eyepiece frame 13 is restricted, and movement only in the optical axis direction is possible.

A diopter adjustment ring 16 is rotatably fitted on the outside of the fixed frame 11. A lead groove 17 inclined with respect to the circumferential direction is formed on the inner surface of the diopter adjustment ring 16.
The guide pin 14 is fitted.

A set screw 21 is attached to the rear outer periphery of the eyepiece frame 13.
The eyepiece support ring 22 is fixed by the eyepiece support ring 22, and a light-shielding eyepiece 26 is slidably fitted on the outside of the eyepiece support ring 22. This shading target 26
The slide ring 23 is made of metal or resin and is in sliding contact with the support ring 22, and the target main body 26a made of a soft material such as rubber is fixed to the outer periphery of the slide ring 23.
It is made up of A rectilinear guide groove 24 in the optical axis direction is cut in the aim support ring 22, and the head of a guide pin 25 screwed and fixed to the slide ring 23 is fitted into this rectilinear guide groove 24. Therefore, this straight guide groove 24 and guide pin 2
5, the light-shielding eyepiece 26 is prevented from rotating and can move in the optical axis direction. Since the light-shielding eyepiece 26 does not rotate, the shape of its rear end is freely set to suit the human face. FIG. 3 and FIG. 4 are examples of the shape.

Between the fixed frame 11 and the slide ring 23,
A click stop mechanism is provided for locking the light shielding eyepiece 26 in the pulled-out position. That is, the aim support ring 22 is provided with a through hole 28 for the click ball 27, and the slide ring 23 is provided with a click hole 29 large enough to partially fit the click ball 27 when the slide ring 23 is pulled out. It is being The click ball 27 is urged by a leaf spring 30 in the direction of fitting into the click hole 29. Note that the eye support ring 22 includes a diopter adjustment ring 1.
A notch 31 of an appropriate size for rotating the holder 6 is provided.

Accordingly, when the binoculars are rotated through the notch 31 and the diopter adjustment ring 16 is rotated, the lead groove 17
Due to the relationship between the guide pin 14 and the linear guide groove 15, the eyepiece frame 13 moves in the optical axis direction. That is, the diopter can be adjusted without rotating the eyepiece frame 13.

Also, depending on whether you wear glasses or not, there are 26 light-shielding eyepieces.
It can be used by pushing it in or pulling it out. In particular, since the click stop mechanism works in the pulled-out position, the light-shielding eyepiece 26 will not be accidentally pushed in when used by a person who does not wear glasses.
By keeping the distance from the rear end of eyepiece 6 to eyepiece 12 constant, a predetermined eyepoint can be maintained.

On the other hand, when used by an eyeglass user, the pushed-in light-shielding eyepiece 26 is pushed by the glasses, so the position of the light-shielding eyepiece 26 does not become unstable, and when stored in a case, etc. Since this can be pushed in in the same way, it can be made smaller.

"Effects of the Invention" As described above, according to the eyepiece structure of the binoculars of the present invention, a diopter adjustment ring is provided separately from the eyepiece frame, and rotation of the diopter adjustment ring moves the eyepiece frame in the optical axis direction. Since the light-shielding eyepiece is supported on the eyepiece frame so as not to rotate, the shape of the light-shielding eyepiece can be adapted to a human face other than a cylindrical shape. Therefore, it is possible to more effectively prevent the incidence of ambient light and perform binocular observation under ideal conditions. Furthermore, since the light-shielding eyepiece can be slid in the optical axis direction independently of the eyepiece frame, its position can be adjusted regardless of the diopter adjustment of the observer, especially for eyeglass users and non-eyeglass users. It is easy to use for both users, and provides more favorable light shielding during use.
It can be made small when stored.

[Brief explanation of the drawing]

Fig. 1 is a sectional view taken along the - line in Fig. 4, showing an embodiment of the eyepiece structure of the binoculars of the present invention, Fig. 2 is a developed view as seen from the arrow in Fig. 1, and Fig. 3 is a cross-sectional view taken along the - line of Fig. FIG. 4 is a front view of the entire binoculars. 11... Fixed frame, 12... Eyepiece, 13...
...Eyepiece frame, 14...Guide pin, 15...
Straight guide groove, 16... Diopter adjustment ring, 17...
...Lead groove, 22...Aim support ring, 23...
...Slide ring, 24...Straight guide groove, 25
...Guide pin, 26...Shading aim, 27...
Click ball, 28...through hole, 29...click hole, 30...plate spring, 31...notch.

Claims (1)

[Scope of Claim for Utility Model Registration] A fixed frame of the eyepiece; An eyepiece frame supported by the fixed frame so as to be movable in the optical axis direction while restricting rotation; a non-cylindrical light-shielding eye supported so as to be linearly movable between a pushed-in position at the front in the optical axis direction and a pulled-out position at the rear; a diopter adjustment ring rotatably fitted around the outer periphery of the fixed frame; and , an interlocking mechanism that interlocks the diopter adjustment ring and the eyepiece frame so that the eyepiece frame moves in the optical axis direction by rotation of the diopter adjustment ring; Eyepiece structure.