JP3719694B2 - Lens mount structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lens mount structure for attaching a lens barrel of a zoom lens unit to an optical device body.
[0002]
[Prior art]
In a broadcast television camera or the like, a zoom lens is often used as a photographing lens. This zoom lens is attached to the optical device main body (camera main body) as a zoom lens unit in which the zoom lens is housed in a lens barrel. In order to selectively use zoom lenses having different zoom ratios according to shooting conditions. In many cases, a lens mount structure configured to detachably attach the lens barrel to the optical device body is also employed.
[0003]
[Problems to be solved by the invention]
However, the conventional lens mount structure has the following problems because the lens barrel is attached to the optical device main body with the surface orthogonal to the optical axis of the zoom lens as the attachment surface.
[0004]
In other words, in an optical device equipped with a zoom lens unit, when the lens barrel is attached to the optical device body, the zoom lens is installed at a position where tracking adjustment (the focus does not need to be readjusted even when the magnification is changed) Adjustment). However, in the above prior art, a surface orthogonal to the optical axis of the zoom lens is used as a mounting surface for the optical device body, and after the lens barrel is held by the optical device body, the entire lens barrel can be moved in the optical axis direction. difficult.
[0005]
Therefore, the conventional tracking adjustment is performed by moving the master lens of the zoom lens in the optical axis direction. However, in this case, the curvature of field increases depending on the configuration of the zoom lens. There is a problem of end.
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a lens mount structure capable of performing tracking adjustment without fear of increasing the curvature of field.
[0006]
[Means for Solving the Problems]
The lens mount structure of the present invention is a lens mount structure for attaching the lens barrel of a zoom lens unit in which a zoom lens is housed in a lens barrel to an optical device main body, on both sides of a rear outer peripheral surface of the lens barrel, A pair of mounting flanges extending in parallel with the optical axis of the zoom lens are formed, and the rear end portion is inserted in the optical axis direction with the rear end portion of the lens barrel inserted into the optical device body. An opening for movably holding and a pair of flange support portions for slidably supporting the pair of mounting flanges in the optical axis direction are formed, and the pair of mounting flanges are the one pair. When the rear end annular part of the lens barrel is inserted into the opening, the forward rotational moment acting on the lens barrel is such that the upper part of the rear end annular part is above the opening. Receiving by contacting the edge And it is characterized in that it is configured to be.
[0007]
The zoom lens accommodated in the zoom lens unit is not limited to a zoom lens for a specific application, but can be used as, for example, a photographing lens or a projection lens.
[0008]
The specific mounting structure of the lens barrel to the optical device main body is not particularly limited. For example, a long hole extending in the optical axis direction is formed in each mounting flange, and each mounting is performed. An attachment structure in which a flange is screwed and fixed to each flange support portion through the long hole is possible.
In this case, at least one of the pair of flanges, a tool insertion hole for finely moving the lens barrel in the optical axis direction with respect to the optical device main body before the screwing and fixing is performed. If this is formed, tracking adjustment can be performed using this tool insertion hole.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an exploded perspective view showing a lens mount structure according to an embodiment of the present invention, FIG. 2 is a side cross-sectional view showing the lens mount structure, and FIGS. FIG. 3 is a view in the direction of arrows III, IV, and VV.
As shown in these drawings, the lens mount structure according to the present embodiment is a lens mount structure for attaching the zoom lens unit 10 to the optical device main body 50.
[0010]
The zoom lens unit 10 includes a lens barrel 12 in which a zoom lens 14 is housed. The lens barrel 12 includes a lens barrel 16, a zoom movable ring 18, and a focus movable ring 20. . Then, by rotating the zoom movable ring 18, the lens interlocked with the zoom movable ring 18 is moved in the optical axis Ax direction to change the magnification of the zoom lens, and by rotating the focus movable ring 20, The lens interlocked with the focus movable ring 20 is moved in the optical axis Ax direction so that the image forming position of the zoom lens becomes constant.
[0011]
A pair of mounting flanges 22 </ b> A and 22 </ b> B are formed on the outer peripheral surface of the rear portion of the lens barrel 12 (that is, the portion located behind the movable zoom ring 18 in the lens barrel 16). These mounting flanges 22A and 22B are formed so as to extend in parallel with the optical axis Ax on the left and right sides of the rear portion of the lens barrel 12, and the rear ends thereof extend to the middle of the rear end annular portion 16a of the lens barrel 16. ing.
[0012]
As shown in FIG. 3, each of the mounting flanges 22A and 22B is formed with two elongated holes 22a extending in the optical axis Ax direction in series, and one (right side) mounting flange 22A has an approximately A triangular tool insertion hole 22b is also formed. In addition, a pair of reinforcing ribs 22c are formed on the top surfaces of the mounting flanges 22A and 22B.
[0013]
On the other hand, an opening 52 and a bracket 54 that protrudes forward so as to surround the lower half of the opening 52 are formed on the front end surface of the optical device body 50.
The opening 52 is set to have a slightly larger diameter than the rear end annular portion 16a of the lens barrel 16, and the rear end annular portion 16a is inserted into the optical axis Ax in a state where the rear end annular portion 16a is inserted. It is designed to be movable in the direction.
[0014]
The bracket 54 is formed in a U-shaped cross section, and a pair of left and right upper end surfaces support the pair of mounting flanges 22A and 22B so as to be slidable in the optical axis Ax direction. A pair of flange support portions 56A and 56B are configured. Each of the flange support portions 56A and 56B is formed with two screw holes 56a at the same pitch as that of the pair of front and rear long holes 22a of the mounting flanges 22A and 22B. A substantially inverted triangular tool insertion hole 56b is also formed in the portion 56A.
[0015]
Next, attachment of the lens barrel 12 to the optical device main body 50 is performed as follows.
That is, as shown in FIG. 1, the pair of mounting flanges of the lens barrel 12 are placed on the pair of flange support portions 56A and 56B of the optical device main body 50, and the lens barrel 12 is slid rearward (in the direction of the arrow). Thus, the rear end annular portion 16 a of the lens barrel 16 is inserted into the opening 52 of the optical device main body 50. Then, the four long holes 22a of the pair of mounting flanges 22A and 22B are aligned with the four screw holes 56a of the pair of flange support portions 56A and 56B, and the screw 100 is inserted into the long hole 22a. The lens barrel 12 is screwed and fixed to the optical device main body 50 by screwing with the screw hole 56a.
[0016]
As shown in FIG. 3, when the long holes 22a are aligned with the screw holes 56a, the tool insertion hole 22b of the right mounting flange 22A and the tool insertion hole 56b of the right flange support portion 56A overlap each other. It has become. Then, in a state where the screw 100 is inserted into each screw hole 56a and the lens barrel 12 is temporarily fixed to the optical device main body 50, a minus screwdriver is inserted into the tool insertion holes 22b and 56b and turned, thereby turning the mirror. The barrel 12 can be moved in the direction of the optical axis Ax with respect to the optical device main body 50 to finely adjust the mounting position.
[0017]
As described above in detail, in the lens mount structure of this embodiment, a pair of mounting flanges 22A and 22B extending in parallel with the optical axis Ax of the zoom lens 14 are formed on both sides of the rear outer peripheral surface of the lens barrel 12. And an opening 52 for holding the rear end annular portion 16a movably in the direction of the optical axis Ax in a state where the rear end annular portion 16a of the lens barrel 16 is inserted into the optical device body 50, and the pair of Since a pair of flange support portions 56A and 56B that slidably support the mounting flanges 22A and 22B in the optical axis Ax direction are formed, tracking adjustment is performed by moving the entire zoom lens unit 10 in the optical axis Ax direction. It can be performed. For this reason, it is possible to eliminate the risk of an increase in field curvature, which occurs when the master lens of the zoom lens is moved in the optical axis direction to perform tracking adjustment as in the prior art.
[0018]
In the present embodiment, each of the mounting flanges 22A, 22A, 22A, 22B is formed through the long holes 22a and the screw holes 56a formed in the pair of flange support portions 56A, 56B. Since 22B is screwed and fixed to the flange support portions 56A and 56B, tracking adjustment and subsequent fixing can be easily performed.
[0019]
Further, in the present embodiment, the right mounting flange 22A and the flange support portion are arranged in a state where the long holes 22a are aligned with the screw holes 56a and the lens barrel 12 is temporarily fixed to the optical device body 50 with the screws 100. By inserting a flat-blade screwdriver into the tool insertion holes 22b and 56b of 56A and turning it, the lens barrel 12 is moved in the direction of the optical axis Ax with respect to the optical device body 50. Necessary tracking adjustment can be easily performed.
[0020]
In particular, in the present embodiment, the pair of mounting flanges 22A and 22B of the lens barrel 12 are placed on the pair of flange support portions 56A and 56B of the optical device main body 50, and the lens barrel 12 is slid rearward. When the rear end annular portion 16a of the lens barrel 16 is inserted into the opening 52 of the optical device main body 50, a forward rotational moment acts on the lens barrel 12, and this forward rotational moment is the upper part of the rear end annular portion 16a. Since the lens barrel 12 is received by contacting the upper edge of the opening 52, the lens barrel 12 can be maintained in a state of being supported by the optical device main body 50 even if it is not held by hand. Adjustment can be performed very easily.
[0021]
In the above embodiment, the pair of flange support portions 56A and 56B of the optical device main body 50 are formed in a horizontal plane. However, even when the pair is formed in a plane inclined with respect to the horizontal plane, Tracking adjustment can be performed without fear of increasing surface curvature.
[0022]
【The invention's effect】
In the lens mount structure of the present invention, a pair of mounting flanges extending in parallel with the optical axis of the zoom lens are formed on both sides of the outer peripheral surface of the rear portion of the lens barrel. An opening for holding the rear end portion movably in the optical axis direction and a pair of flange support portions for slidably supporting the pair of mounting flanges in the optical axis direction. Thus, tracking adjustment can be performed by moving the entire zoom lens unit in the optical axis direction. For this reason, it is possible to eliminate the risk of an increase in field curvature, which occurs when the master lens of the zoom lens is moved in the optical axis direction to perform tracking adjustment as in the prior art.
[Brief description of the drawings]
1 is an exploded perspective view showing a lens mount structure according to an embodiment of the present invention. FIG. 2 is a side cross-sectional view showing the lens mount structure of FIG. 1. FIG. ] IV view of FIG. 2 [FIG. 5] VV sectional view of FIG. 2 [Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Zoom lens unit 12 Lens barrel 14 Zoom lens 16 Lens barrel 16a Rear end annular part 18 Zoom movable ring 20 Focus movable ring 22A, 22B Mounting flange 22a Long hole 22b Tool insertion hole 22c Reinforcement rib 50 Optical apparatus main body 52 Opening part 54 Brackets 56A, 56B Flange support 56a Screw hole 56b Tool insertion hole Ax Optical axis

Claims (3)

A lens mount structure for attaching the lens barrel of a zoom lens unit in which a zoom lens is accommodated in a lens barrel to an optical device body,
A pair of mounting flanges extending in parallel with the optical axis of the zoom lens are formed on both sides of the outer peripheral surface of the rear portion of the lens barrel,
An opening that holds the rear end portion of the optical device body so that the rear end portion of the lens barrel can be moved in the optical axis direction, and the pair of mounting flanges in the optical axis direction. And a pair of flange support portions that are slidably supported,
When the pair of mounting flanges are placed on the pair of flange support portions and the rear end annular portion of the lens barrel is inserted into the opening, a forward rotational moment acting on the lens barrel is A lens mount structure configured to be received by contacting an upper portion of an annular portion with an upper edge of the opening. Each mounting flange is formed with a long hole extending in the optical axis direction,
2. The mounting of the lens barrel to the optical device body is performed by screwing and fixing the mounting flanges to the flange support portions through the long holes. Lens mount structure.   At least one of the pair of flanges is formed with a tool insertion hole for finely moving the lens barrel in the optical axis direction with respect to the optical device main body before the screwing and fixing. The lens mount structure according to claim 2, wherein:

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