JP2574723Y2 - Viewfinder diopter adjustment mechanism - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a diopter adjustment mechanism for a viewfinder used in a video camera or the like.

[0002]

2. Description of the Related Art A diopter adjustment mechanism as shown in FIG. 2 has been conventionally proposed (see Japanese Utility Model Laid-Open No. 61-99136). In FIG. 2, a lens barrel main body 1 is provided integrally with a camera main body (not shown), and a diopter adjusting ring 4 is rotatably disposed inside the lens barrel main body 1.
At both ends of the diopter adjusting ring 4, flange portions 4a and 4b located outside both ends of the lens barrel main body 1 are formed. A knurl 21 is formed on the peripheral surface of the one flange portion 4a, and a wave washer 11 is provided between the other flange portion 4b and the lens barrel main body 1.

A lens holding cylinder 2 is arranged on the inner periphery of the diopter adjusting ring 4, and a screw portion 22 is provided between an inner wall of the diopter adjusting ring 4 and an outer wall of the lens holding cylinder 2.

On the other hand, a guide mounting portion 2 is provided on the camera body.
The guide mounting portion 23 has a guide member 2.
4 is fixed. The tip of the guide member 24 has a U
A letter-shaped groove 24a is formed, and a pin 25 of the lens holding cylinder 2 is engaged with the groove 24a. As a result, the lens holding cylinder 2 is prevented from rotating in the radial direction, and can only move in the direction of the optical axis C. When the diopter adjustment ring 4 is rotated against the pressing force of the wave washer 11, the lens holding cylinder 2 moves in the direction of the optical axis C due to the pitch of the screw portion 22.

[0005]

However, according to the above configuration, there is no backlash in the direction of the optical axis C of the diopter adjustment ring 4 due to the wave washer 11, but there is no gap between the diopter adjustment ring 4 and the lens holding cylinder 2. The screw portion 22 is configured. Since the screw portion 22 always has a backlash due to its configuration, the backlash causes a play in the direction of the optical axis C between the diopter adjustment ring 4 and the lens holding cylinder 2 to perform accurate diopter adjustment. There was a disadvantage that it could not be done.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a diopter adjustment mechanism of a view finder that can perform accurate diopter adjustment with almost no play in the optical axis direction of the lens holding cylinder with respect to the lens barrel main body.

[0007]

A diopter adjusting mechanism for a viewfinder according to the present invention for solving the above problems is provided with a lens barrel main body and movably in the optical axis direction with respect to the lens barrel main body. A lens holding cylinder, and a diopter adjustment mechanism of a viewfinder including a diopter adjustment ring rotatably provided with respect to the lens barrel main body, wherein one of the diopter adjustment ring and the lens holding cylinder is provided. A cam projection that inserts a cam groove oblique to the same circumferential direction into this cam groove is provided on the other side,
An urging member for pressing the diopter adjusting ring in the optical axis direction is provided.

[0008]

When the diopter adjusting ring is rotated, the cam projection moves in the cam groove and the lens holding cylinder is displaced in the optical axis direction. The diopter adjusting ring is pressed in the optical axis direction by the urging member. Therefore, there is no backlash in the optical axis direction, and since the cam projection is formed in the cam groove with almost no clearance in the optical axis direction, the lens holding cylinder has almost no backlash in the optical axis direction.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a sectional view of a diopter adjusting mechanism of a viewfinder to which the present invention is applied. In FIG. 1, a cylindrical lens barrel body 1 is fixed to a camera body (not shown), and a cylindrical lens holding barrel 2 is provided inside the lens barrel body 1.
Are slidably arranged in the direction of the optical axis C. A lens 3 for adjusting diopter is provided in the lens holding cylinder 2.

A cylindrical diopter adjusting ring 4 is rotatably provided outside the lens barrel main body 1, and a rubber annular member 5 is provided in a circumferential concave portion of the diopter adjusting ring 4. ing. The annular member 5 prevents slippage when the diopter adjustment ring 4 rotates. A plurality of cam projections 6 are provided inside the diopter adjusting ring 4, and each of the cam projections 6 protrudes into the lens barrel main body 1 from a long hole 7 of the lens barrel main body 1. Slot 7
Are extended on the same circumference, and the tips of the cam projections 6 are inserted into the cam grooves 8 of the lens holding cylinder 2. The cam groove 8 is obliquely inclined with respect to the same circumferential direction. When the cam projection 6 moves in the cam groove 8, the lens holding cylinder 2 is displaced in the direction of the optical axis C. The cam projection 6 is configured such that there is almost no clearance in the direction of the optical axis C in the cam groove 8.

An eyecup holder 9 is fixed to the distal end of the lens barrel body 1, and an eyecup 10 is attached by the eyecup holder 9. A ring-shaped wave washer 11 as an urging member is interposed between the eyecup holder 9 and the diopter adjustment ring 4.
The diopter adjustment ring 4 is pressed in the direction of the arrow a in FIG.

The operation of the above configuration will be described below. When the diopter adjusting ring 4 is rotated, the lens projection 2 is displaced in the direction of the optical axis C by the cam projection 6 moving in the cam groove 8. Then, the diopter adjustment ring 4 is pressed in the direction of the optical axis C by the wave washer 11 and has no play in the direction of the optical axis C.
Further, since the cam projection 6 is formed in the cam groove 8 with almost no clearance in the direction of the optical axis C, the lens holding cylinder 2 hardly rattles in the direction of the optical axis C. or,
Since the pressing force of the wave washer 11 is a major factor in the rotational torque of the diopter adjusting ring 4, a desired rotational torque can be easily obtained by adjusting the pressing force of the wave washer 11. That is, the rotational torque of the diopter adjustment ring 4 is
The friction when the lens holding cylinder 2 slides with the body 1 as a guide
Depends on friction. For this reason, the lens barrel main body 1 and the lens holding
The dimensions of the cylinder 2 are, for example, when molding with a mold
In the case of slight deviation due to conditions, the frictional force changes and
The rotation torque may fluctuate.
However, there is no variation due to the pressing force of the wave washer 11.
A constant rotation torque is obtained.

[0013]

As described above, according to the present invention, in a diopter adjusting mechanism of a viewfinder having a lens barrel main body, a lens holding cylinder, and a diopter adjusting ring, the rotational force of the diopter adjusting ring is held by the lens. The mechanism that converts the movement into linear motion in the optical axis direction of the cylinder is composed of cam projections and cam grooves, and the diopter adjustment ring is pressed by the biasing member in the optical axis direction, so not only the diopter adjustment ring but also the lens holding cylinder Since there is almost no play in the optical axis direction, there is an effect that accurate diopter adjustment can be performed.

[Brief description of the drawings]

FIG. 1 is a sectional view of a diopter adjustment mechanism of a viewfinder (embodiment).

FIG. 2 is a cross-sectional view of a diopter adjustment mechanism of a viewfinder (conventional example).

[Description of Signs] 1 ... lens barrel main body, 2 ... lens holding cylinder, 4 ... diopter adjustment ring, 6 ... cam projection, 8 ... cam groove, 11 ... wave washer (biasing member).

──────────────────────────────────────────────────続 き Continuation of the front page (56) References Japanese Utility Model Sho 61-99136 (JP, U) Japanese Utility Model Sho 60-133436 (JP, U) Japanese Utility Model Sho 55-35525 (JP, U) (58) Survey Field (Int.Cl. ⁶ , DB name) G03B 13/06

Claims (1)

(57) [Scope of request for utility model registration] 1. A lens barrel main body, a lens holding cylinder movably provided in the optical axis direction with respect to the lens barrel main body, and a diopter adjusting ring rotatably provided with respect to the lens barrel main body. In a diopter adjustment mechanism of a viewfinder having a cam projection, one of the diopter adjustment ring and the lens holding cylinder has a cam projection obliquely inserted in the same circumferential direction with respect to the same circumferential direction. A diopter adjustment mechanism for a viewfinder, further comprising an urging member for pressing the diopter adjustment ring in an optical axis direction.