JP2015018164A - Filter lens holding mechanism of filter frame - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a filter holding mechanism which is thin and large in effective diameter, and can make a filter lens firmly adhere to the inside of a filter frame without imparting distortion.SOLUTION: A filter lens is fit and held by a rear part of a filter lens front edge frame, a caulked tongue part which grips the held filter lens at its rear part has an L-shape from the rear part of the filter lens front edge frame and forms an annular body extending in an optical axial direction of the filter lens, a caulked abutting part which abuts on a rear chamfered part of the filter lens and grips the filter lens is arranged at a tip inside diameter side of the L-shaped caulked tongue part, a circular groove for bend deformation is engraved in a bending/deformation region of the caulked abutting part so that an inside diameter part of the caulked tongue part does not come into contact with a peripheral edge of the filter lens, and a deformation part of the caulked tongue part is made not to come into contact with the peripheral edge of the filter lens and a filter lens face at the pressurization deformation of the caulked tongue part.

Description

The present invention relates to a filter lens holding mechanism in a filter frame.

The filter lens holding mechanism according to the present invention can form the filter frame in the optical axis direction, that is, the thickness of the filter frame, and is built in the filter frame in a filter with a fixed filter diameter. The present invention provides a filter lens holding mechanism in a filter frame that can maximize the effective diameter of the filter lens, and provides a filter frame that is resistant to vignetting even when mounted on the front surface of a telephoto lens or a wide-angle lens. The filter lens holding mechanism according to the present invention includes a filter lens in a state in which no physical distortion or distortion due to heating is applied to the filter lens when the filter lens is fixed in the filter frame. The present invention provides a caulking processing means capable of holding various filter lenses in a frame.

The filter frame according to the present invention has a great utility value such as a lens protection filter, a circular polarization filter, a light quantity reduction filter, a light effect filter that brings about a special effect, and a soft focus filter that can express a subject softly. The present invention relates to a holding mechanism for various filter lenses for a digital camera.

With the widespread use of digital single-lens reflex cameras, it is possible to take pictures while directly confirming the effects of using filters on the viewfinder and LCD screen, or to install various interchangeable lenses and to have various effects at the tip of the interchangeable lens barrel. It is now possible to enjoy shooting with a camera.

However, the filter contains and holds a disk-shaped filter lens having various effects in the filter frame body, and the inner diameter of the filter frame body on the incident light side has a hood or the like from the front edge to the rear. A front cylinder frame part with a female thread part is formed for the attachment of different filters and different filters, and the outer diameter on the camera lens barrel side of the filter frame body is the inner diameter of the camera lens barrel. A rear cylinder frame portion is formed in which a male screw portion screwed into a mounting female screw portion provided in the portion is screwed.

Accordingly, the dimension in the optical axis direction of the filter frame body, that is, the thickness of the filter frame body, the front cylinder frame part in which the female screw part is screwed, the thickness of the filter lens, and the annular ring for holding the filter lens In addition, the conventional filter frame is inevitably thicker because the thickness of the filter frame is increased. Has the drawback of causing vignetting when used on the tip of a camera lens barrel.

In addition, the filter requires a mechanism for holding a disc-shaped filter lens in the filter frame body having a predetermined filter aperture. The filter lens holding mechanism includes, for example, a holding ring for holding the filter and a ring spring. A method to be used or a method of fixing a part of the rear frame of the filter lens by caulking is known. In the caulking filter holding mechanism, an annular edge protruding in an annular shape is provided on the incident light side inner diameter portion of the filter frame body, and after the filter lens is fitted behind the annular edge, the filter lens The filter lens is fixed and held in the filter frame main body by caulking the rear peripheral edge with a caulking die tool or caulking heating tool.

Thus, in the method of fixing the filter lens by the caulking process, when the annular edge provided on the incident light side inner diameter part of the filter frame body is subjected to the shape process or caulking process of the caulking part provided at the rear part of the filter lens. The effective diameter formed by the annular edge of the filter lens is generally reduced due to being limited by the outer diameter of the caulking mold tool and the outer diameter of the caulking heating tool. Even if the frame body is made thin, the effective diameter of the filter lens is reduced, resulting in a drawback that the vignetting phenomenon occurs.

Thus, an example in which a filter frame having a thin shape that is not easily vignetted is disclosed in Japanese Patent Application Laid-Open No. 2010-1113016 (hereinafter referred to as Patent Document 1). In the description of the conventional example described in Patent Document 1, an example of using a retaining ring (holding ring) is disclosed and described as a method for fixing an optical filter (filter lens) to a filter frame, and the width of the retaining ring. There is a limit to shortening the dimensions, and furthermore, it is difficult to uniformly reduce the thickness dimensions of various optical filters. For this reason, it is a difficult problem to shorten the dimensions of the filter frame.

In order to solve the above problems, the invention of Patent Document 1 includes a filter unit for a camera, a cylindrical filter frame, a cylindrical filter holding ring fixed inside the filter frame, and the filter holding ring. An optical filter that is held inside, and a front stopper and a rear stopper that prevent the optical filter from moving back and forth, and the front stopper is formed at a front edge of the filter holding ring. The rear stopper is formed on the rear end edge of the filter holding ring or the inner peripheral surface of the filter frame, and the filter holding ring and the optical filter are not exposed from the front and rear ends of the filter frame. It is arranged in a state.

Therefore, in the invention of Patent Document 1, in the filter router unit for a camera, the filter holding ring is fixed inside the filter frame, and the optical filter is held inside the filter holding ring. That is, the filter holding ring, which is a member for attaching the optical filter to the filter frame, is not disposed before or after the optical filter, but is disposed at the outer peripheral portion of the optical filter. As a result, when the filter holding ring and the optical filter are arranged without being exposed from the filter frame, the filter frame, the filter holding ring, and the optical filter are arranged concentrically, so that the size of the filter frame in the front-rear direction is shortened. It can be said.

However, the difference between Patent Document 1 and the conventional example described in Patent Document 1 is that the conventional example uses a retaining ring as a fixture of the optical filter, whereas the invention of Patent Document 1 is a filter holding device. The optical filter is fixed to the filter holding ring by a caulking process using a protrusion and a metal mold for caulking (there is an example that does not use caulking), and this filter holding ring is placed inside the filter frame. It is fixed.

Thus, in the structure in which the optical filter fixed in the filter frame by the filter holding ring is fixed by the annular protrusion (front stopper) or the crimped portion (rear stopper) on the ring, the protrusion or the crimp Only the thickness of the member formed by the portion is shortened, and the filter frame is not significantly reduced in thickness.

Further, in the invention of Patent Document 1, a filter holding ring is used to hold the optical filter on the incident light side, and the filter holding ring protrudes toward the optical axis side to reduce the effective diameter of the filter lens. In addition, an annular projection protruding toward the optical axis at the front edge of the filter holding ring (referred to as the front edge in the embodiment of the present invention) reduces the size of the effective diameter of the filter lens, Even if a folded thin filter is provided, there is no mention of the cause of the vignetting phenomenon due to the reduction of the effective diameter of the filter lens in the filter frame having a predetermined filter aperture.

Next, the present invention provides a thin filter frame shape that does not cause an vignetting phenomenon, and a filter frame shape that can maximize the effective diameter of a filter lens in a filter frame with a fixed filter aperture. Provided is a caulking processing means capable of clamping the filter lens in the filter frame in a state in which no physical distortion or heat distortion is applied to the filter lens when the filter lens is fixed in the filter frame. Therefore, in order to realize this object, the configuration and shape of the caulking portion provided behind the filter lens are required, and the related Japanese Patent Application Laid-Open No. 2008-191212 (hereinafter referred to as the related art) (Referred to as Patent Document 2).

That is, Patent Document 2 relates to a lens barrel having a structure in which a lens is fixed by thermal caulking in a lens barrel main body made of synthetic resin, and the lens fixed to the lens barrel is not distorted without causing distortion. It is said that a lens barrel that can be fixed to the frame is provided.

The configuration of the invention of Patent Document 2 is a three-protrusion projecting in the optical axis direction so as to abut one surface of the optical member in order to position the optical member (lens) in the optical axis direction, and spaced apart from each other. And a lens barrel made of a synthetic resin that is spaced apart from each of the protrusions in the optical axis direction and has three caulking portions for heat caulking so as to sandwich the optical member. It is shown.

Thus, in the lens fixing method by thermal caulking in the invention of Patent Document 2, in order to apply a load to the frame and the lens for fixing, particularly when the lens is thin, by applying the thermal caulking load. There is a problem that the residual stress remains and is fixed to the lens frame while the change remains even after the caulking is fixed. In order to secure the holding accuracy of the frame, a holding structure that receives the lens receiving surface at three convex surfaces is often used. In such a case, the deformation of the lens surface is often particularly promoted. It seems that he is looking for a solution to the problem.

However, in describing the present invention, the configuration of Patent Document 2 which has been noted is the cross-sectional shape of the convex caulking portion (1c) described in [FIG. 1] and [FIG. 3], and [FIG. 4]. And FIG. 6 is a cross-sectional view of the caulking mold (3) described in FIG. In FIG. 1 of Patent Document 2, the lens frame body (1) is a cylindrical member made of synthetic resin, and a lens mounting step (1a) is provided along the circumferential direction on the front side. An arc-shaped convex plane part (1b) which is three lens optical axis direction positioning protrusions arranged with a gap in the circumferential direction to form a plane perpendicular to the optical axis at three points on the part (1a) Is provided. Furthermore, the lens (2) is spaced apart from the inner diameter part (1d) in which the lens (2) can be inserted without a gap, and the convex flat part (1b) along the inner diameter part. There are three arc-shaped convex caulking portions (1c) that extend upward by a necessary dimension for caulking in correspondence with the thickness of the periphery of the lens (2) and are arranged with a gap in the circumferential direction. It has been. (See paragraph number [0023] of Patent Document 2)

In addition, the convex crimping part (1c) corresponding to the convex flat part (1b) is at the same position in the circumferential direction, and the size (width) in the circumferential direction is also substantially the same. However, the circumferential size (width) of the convex flat portion (1b) may be different from the circumferential size (width) of the convex caulking portion (1c). In addition, the upper outer side of the convex caulking portion (1c) has a slight taper surface for caulking. (Paragraph number [0024] of Patent Document 2)

The lens barrel (10) is heat caulked by a caulking mold (3) shown in FIGS. 4 to 6, and the lens (2) is fixed to the lens barrel body (1). The caulking mold (3) has a ring-like flat caulking portion (3a) on the lower surface side and a tapered portion (3b) on the outer periphery thereof. The flat caulking portion (3a) is formed of a ring-shaped flat surface that is orthogonal to the optical axis (FIG. 6).
When the lens barrel (10) is heat caulked by the caulking mold (3), the lens (2) is inserted into the inner diameter portion (1d) of the barrel body (1) set on the mounting base (4). Then, the lower surface (2b) of the lens (2) is brought into contact with the convex flat portion (1b). In this state, the tip of the convex caulking portion (1c) protrudes from the peripheral surface of the lens (2) by the caulking amount. The heated caulking mold (3) is lowered and the front end portion of the convex caulking portion (1c) is pressed and deformed into a nail shape while being heated by the flat caulking portion (3a), so that the lens (2) is attached to the lens barrel body 1 It sticks to. At the time of this heat caulking, the flat caulking portion (3a) of the caulking mold (3) does not come into contact with other than the convex caulking portion (1c). (Paragraph No. [0025] of Patent Document 2)

In the lens barrel (10) to which the lens (2) is fixed, as shown in FIGS. 7 to 9, the outer periphery (3) of the lens 2 has a convex flat portion (1b) and a convex caulking portion ( It is clamped by the tip (claw portion) that is pressed and deformed by pressing 1c). Accordingly, the lens (2) is not subjected to the pressing force except for the three sandwiched portions (the convex flat portion 1b and the convex caulking portion 1c), and the distortion due to the caulking of the lens (2) is extremely small. (Paragraph No. [0026] of Patent Document 2)
It is a point. (Refer to the gazette of Patent Document 2 above. References in parentheses indicate the codes described in Patent Document 2.)

Thus, the disadvantage of the invention of Patent Document 2 described above is that the outer periphery (3) of the lens (2) is pressed and deformed by the convex flat part (1b) and the convex caulking part (1c) of the lens barrel body (1). In this case, the corner portion of the peripheral edge of the lens (2) inserted into the inner diameter portion (1d) without any gap is pressed by the caulking portion during the caulking process, and distortion due to the caulking process is given to the lens (2). It is to end up. In addition, the same phenomenon is observed in the lens barrel body (1) manufactured by cutting a metal ring such as aluminum or brass, and a lens mirror made of a synthetic resin as described in Patent Document 2 above. The frame body (1) is a lens barrel having a structure in which the lens (2) is fixed by heat caulking. The heated caulking mold (3) is lowered and heated by the flat caulking part (3). However, heat is directly transferred to the lens (2) through the convex flat part (1b), the convex caulking part (1c), and the inner diameter part (1) to the lens (2) which is fixed when being pressed and deformed. There is a drawback of giving.

Next, FIG. 5 and FIGS. 6A and 6B in the specification of the present invention are conventional filter lens holding mechanisms in a metal filter frame manufactured by cutting an annular ring such as aluminum or brass. An example will be described.

FIGS. 5A and 5B are explanatory views of the mounting positions of the filter frame main body and the lens barrel. FIGS. 6A and 6B illustrate the manufacturing process in the conventional filter lens holding mechanism and the holding mechanism after processing. 6 (A) and 6 (B) are AA partial enlarged sectional views of FIG.

In FIG. 5, 51 is a filter frame body, 52 is a filter lens, 53 is a digital camera body, and 54 is a camera lens barrel. The camera lens barrel side, C indicates the optical axis of the filter frame body and the camera lens barrel.

The filter lens 52 built in the filter frame body 51 includes a lens protection filter, a circular polarization filter, a light amount reduction filter, a filter for a light effect that brings about a special effect, and a soft focus that can express a subject softly. Various filter lenses such as industrial filters are used.

6A and 6B, reference numeral 51 denotes a filter frame body, which is manufactured by cutting a metal annular ring made of aluminum or brass. Reference numeral 52 denotes a filter lens, t denotes the thickness of the filter frame main body 51, 55 denotes the incident light side of the filter frame main body, and 56 denotes the camera lens barrel side of the filter frame main body. The frame main body is substantially bisected, and the incident light side 55 is integrally formed as a front cylinder frame 57 and the camera lens barrel side 56 is integrally formed as a rear cylinder frame 58.

A female thread portion 60 for attaching an attachment such as a hood is screwed into the inner diameter portion 59 of the front cylinder frame 57 of the filter frame body 1, and a relief groove 61 is formed in the thread base portion of the female thread portion 60. It is installed. The escape groove 61 has a configuration in which the male screw of the attachment screwed to the female screw portion 60 is screwed with a clearance and comes into contact with the stopper surface 62 provided on the screw base, and the male screw of the attachment is tightly engaged. And can be detachably screwed into the female screw portion 60 of the front cylinder frame 57.

Next, a male screw part 64 for mounting to the camera lens barrel 54 is screwed on the outer peripheral part 63 of the rear cylinder frame 58 of the filter frame main body 51, and a screw base part of the male screw part 64 is A relief groove 65 is formed. The escape groove 65 has a configuration in which the female screw of the camera lens barrel 54 into which the male screw part 64 is screwed is screwed with a clearance and comes into contact with a stopper surface 66 provided in the screw base part. The male screw portion 64 of the filter frame main body 51 can be detachably screwed without being tightly engaged with the distal end portion of the camera lens barrel 54.

In addition, an annular filter lens holding ring 68 is provided in an annular shape protruding in the direction of the optical axis C on the inner joint portion 67 of the front cylinder frame 57 and the rear cylinder frame 58. A filter lens front edge frame 69 of the filter lens 52 is provided at the front end edge portion.

Thus, as shown in FIG. 6 (A), a caulking portion 70 is formed in the rear portion (camera lens mirror side 56) of the filter lens front edge frame 69 by engraving an annular cutting groove 71. The caulking bellows portion 70 has a caulking assisting taper 72 at the outer peripheral tip and is arranged in an annular cylindrical shape around the optical axis C, and the inner diameter portion of the cylindrical caulking bellows portion 70 is A filter lens fitting portion 73 capable of fitting the filter lens 52 is formed.

In the filter lens 52 fitted to the inner diameter portion of the filter lens fitting portion 73, the taper 72 portion of the caulking bellow portion 70 is pressure-deformed by the taper portion 75 and the caulking portion 76 of the annular caulking die 74. 6 (B), the tip end portion of the taper 72 of the caulking portion 70 is crimped, and the filter lens 52 is a filter lens sandwiched between the filter lens front edge frame 69 and the crimped caulking portion 70. It is a holding mechanism.

Thus, the filter lens holding mechanism in the conventional filter frame shown in FIGS. 6 (A) and 6 (B) has a crimped portion that is bent when the tip end portion of the crimping portion 70 is crimped by the crimping die 74. Is directly in contact with the corner 77 provided on the rear peripheral edge of the filter lens 52, and the corner 77 becomes a fulcrum during caulking, and the filter lens front edge 69 is also subjected to caulking. The pressure deformation force is applied, and the filter lens holding edge portion 68 forming the filter lens front edge portion 69 and the filter lens front edge portion 69 is required to have a strong shape having a large thickness t2. Yes.

Accordingly, the thickness t of the filter frame main body 51 is set to the minimum function of the female screw portion 60 and the escape groove 61 (screwing and stopper function of the female screw), and the front cylindrical frame 57, the male screw portion 63 and the relief groove having the thickness t1. Adding the thickness t2 of the filter lens retaining ring 68 formed thicker to the rear cylinder frame 58 formed of the minimum function 65 (male thread screw height and stopper function) thickness t3 as a whole There is a disadvantage that the thickness t in the optical axis direction 51 is increased to create a factor that easily causes vignetting.

In addition, the filter lens holding mechanism in the conventional filter frame is formed by engraving an annular cutting groove 71 when manufacturing the entire caulking portion 70 for caulking. Accordingly, the annular cutting groove 71 is deeply cut in the direction of the optical axis C to form the caulking portion 70, and the caulking die 74 is inserted into the annular cutting groove 71 for pressure deformation. Therefore, the annular cutting groove 71 needs to be engraved with a large inner diameter dimension φ2. Further, it is necessary to increase the inner diameter φ2 of the annular cutting groove 71 and to increase the width W of the annular cutting groove 71, and the front edge of the filter lens provided at the front end edge of the filter lens holding ring portion 58. The inner diameter of the frame 59 is shifted in the direction of the optical axis C, and in the filter frame main body 51 with the determined filter aperture φ, the effective diameter φ3 is remarkably reduced, which causes the occurrence of vignetting. I'm coughing.

Further, the filter lens holding mechanism in the conventional filter frame shown in FIGS. 6 (A) and 6 (B) is a caulking process by bending the tip end portion of the caulking portion 70 by 90 degrees with a caulking die 74. The bending angle increases. Further, in the conventional example, the bent portion by caulking is in direct contact with the rear peripheral edge portion and the corner portion 77 of the filter lens 52, and the corner portion 77 becomes a fulcrum during caulking processing. The pressure deformation force for the caulking process is applied as a strain, and the physical strain causes the filter lens 52 holding accuracy and the filter lens surface to be deformed, which adversely affects the filter lens holding mechanism. Yes.

JP 2010-1113016 A JP 2008-191212 A

Thus, the problem to be solved by the present invention is to provide a filter frame for a digital camera in which the dimension of the filter frame in the optical axis direction, that is, the thickness of the filter frame is formed thin. It provides a filter frame that is resistant to vignetting even when attached to a lens or wide-angle lens.

In addition, the filter lens holding mechanism according to the present invention provides a filter lens holding mechanism capable of taking the maximum effective diameter of the filter lens incorporated in the filter frame in a filter with a fixed filter aperture. It provides a filter frame that is resistant to vignetting even when mounted on the front of a telephoto lens or wide-angle lens.

Furthermore, the filter lens holding mechanism according to the present invention is a filter lens in a state in which no physical distortion or distortion due to heating is applied to the filter lens when the filter lens is fixed inside the filter frame and held. The present invention provides a caulking processing means capable of holding various filter lenses in a frame.

In the present invention, the filter frame main body attached to the front end of the camera lens barrel is substantially bisected into the annular filter frame main body, and the incident light side is formed as a front cylinder frame and the camera lens barrel side is formed as a rear cylinder frame. The front tube frame has a female screw portion for attaching an attachment to the inner diameter portion of the front tube frame from the incident light side, and a male screw portion to be screwed into the camera lens barrel on the outer periphery of the rear tube frame A filter lens holding ring projecting toward the optical axis is provided on the inner side of the center portion of the filter frame body composed of the female screw portion and the male screw portion, and is provided at the tip of the filter lens holding ring portion. Is provided with an annular filter lens front edge frame, the filter lens is fitted and held in the rear fitting frame of the filter lens front edge frame, and the filter lens fitted and held in the rear fitting frame is attached to the rear The front and back of the caulking velvet part An annular body having an L shape from the rear portion of the front edge frame of the filter lens and extending in the optical axis C direction of the filter lens is formed. A caulking abutting portion is provided for abutting against the end portion to clamp the filter lens, and the bending deformation portion of the caulking abutting portion is arranged so that the inner diameter portion of the caulking bellows portion does not contact the circumferential edge of the filter lens. A circumferential groove for bending deformation that opens in the direction of the circumferential edge of the filter lens is engraved so that the deformed portion of the crimped bellows does not contact the circumferential edge of the filter lens or the filter lens surface during the pressure deformation of the crimped bellows. It is a holding mechanism of the filter lens in the constructed filter frame.

Further, in the present invention, a caulking contact portion provided on the inner diameter side of the tip end portion of the L-shaped caulking bellows portion is provided at the rear end portion of the filter lens that is fitted and held at the rear portion of the filter lens front edge frame. A chamfering abutting surface having an inclination of at least about 45 degrees with respect to the optical axis C of the filter lens is provided so as to abut, and the caulking abutting portion of the caulking bellows portion is caulked on the chamfering abutting surface of the filter lens. So that the filter lens is sandwiched between the front edge frame of the filter lens and the caulking abutting portion of the caulking bellows portion.

Further, a caulking abutting portion for holding the filter lens in contact with the rear end chamfered portion of the filter lens is provided on the inner diameter side of the tip end portion of the L-shaped caulking portion in the present invention. A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed on the bending deformation portion of the filter lens so that the inner diameter portion of the caulking bellows does not contact the circumferential edge of the filter lens. The deformed circumferential groove has a semicircular bottom cross-sectional shape, and is configured so that the deformed portion of the caulking bellows portion does not contact the circumferential edge of the filter lens or the filter lens surface when the caulking bellows portion is pressed and deformed. Yes.

In addition, a caulking contact portion for abutting the chamfered portion of the rear end portion of the filter lens to clamp the filter lens is provided on the inner diameter side of the tip end portion of the L-shaped caulking portion in the present invention. A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed on the bending deformation portion of the filter lens so that the inner diameter portion of the caulking bellows does not contact the circumferential edge of the filter lens. The deformed circumferential groove has a trapezoidal bottom cross-sectional shape, and is configured so that the deformed portion of the crimping bellows portion does not contact the circumferential edge of the filter lens or the filter lens surface when the caulking bellows portion is pressure-deformed. .

Further, on the inner diameter side of the tip end portion of the L-shaped caulking portion in the present invention, there is provided a caulking abutting portion for abutting the chamfered portion of the rear end portion of the filter lens so as to sandwich the filter lens. A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed in the bending deformation portion of the filter lens so that an inner diameter portion of the caulking lens portion does not contact the circumferential edge of the filter lens. The bottom cross-sectional shape of the circumferential groove for use has a V shape, and the deformed portion of the caulking bellows portion is configured not to contact the circumferential edge portion of the filter lens or the filter lens surface when the caulking bellows portion is subjected to pressure deformation. Yes.

Furthermore, the present invention provides that the filter lens is fitted and held at the rear part of the filter lens front edge frame, and the caulking part that holds the fitted filter lens at the rear part from the rear part of the filter lens front edge frame. The outer appearance has a circular truncated cone shape, and an annular body extending rearward of the filter lens is formed. The inner diameter side of the front end portion of the truncated cone portion of the truncated cone shape is in contact with the chamfered portion of the rear end portion of the filter lens. A caulking contact portion for clamping the filter lens is provided, and the outer peripheral edge of the filter lens is arranged so that the inner peripheral portion of the caulking bellows portion does not contact the circular peripheral portion of the filter lens at the bending deformation portion of the caulking contact portion. A circumferential groove for bending deformation that opens in the direction of the part is formed, and the bottom stepped surface of the circumferential part for bending deformation has a semicircular shape, a trapezoidal shape, or a V-shaped shape, and pressurization of the caulking portion Deformation of Kashimebero portion is to provide a retention mechanism of a filter lens in filter frame configured so as not to contact with the circumferential edge and the filter lens surface of the filter lens when shape.

The present invention includes a front cylinder frame, a rear cylinder frame, a female thread part for attaching an attachment, a male thread part to be screwed into a camera lens barrel, and a filter lens retaining ring part that constitute a filter holding mechanism of the filter lens body. The filter lens front edge part and the caulking part are made by cutting a metal annular ring made of aluminum and brass to produce one filter frame, and the caulking part is processed by a caulking die tool in the filter frame. It is also a filter lens holding mechanism.

The present invention also includes a front cylinder frame, a rear cylinder frame, a female screw part for attachment attachment, a male screw part to be screwed into a camera lens barrel, and a filter lens holding ring part that constitute the filter holding mechanism of the filter lens body. The filter lens front edge part and the caulking part are molded into a single filter frame with a polymer compound, and the caulking part is processed by a filter lens holding mechanism in the filter frame that is caulked with a heat caulking die tool. Also provide.

Thus, the present invention provides a filter frame for a digital camera in which the dimension of the filter frame in the optical axis direction, that is, the thickness of the filter frame is formed thin, and the filter frame is attached to a telephoto lens or a wide-angle lens. Even now, it has become possible to provide a filter frame that is less vignetting.

In addition, the filter lens holding mechanism according to the present invention provides a filter lens holding mechanism capable of taking the maximum effective diameter of the filter lens incorporated in the filter frame in a filter with a fixed filter aperture. This makes it possible to provide a filter frame that resists vignetting even when mounted on the front of a telephoto lens or wide-angle lens.

Furthermore, the filter lens holding mechanism according to the present invention is a filter lens in a state in which no physical distortion or distortion due to heating is applied to the filter lens when the filter lens is fixed inside the filter frame and held. It is possible to provide caulking processing means capable of holding various filter lenses in the frame, and to provide a filter lens holding mechanism that improves the holding accuracy of the filter lens 2 and does not deform the filter lens surface.

In the present invention, since the filter frame attached to the tip of the camera lens barrel can be made thin, it is possible to reduce the weight of the filter and reduce the load on the autofocus motor. Filters can be provided.

Furthermore, according to the present invention, the number of parts can be drastically reduced as a combination of the filter body parts and the filter lens, and the cost can be reduced and the assembly efficiency can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS The principal part longitudinal cross-sectional view which shows the filter frame main body explaining Example 1 of this invention. (A) The AA partial expanded sectional view of FIG. (B) Explanatory drawing which shows a crimping completion state in the expanded sectional view of FIG. (A) Partial expansion longitudinal cross-sectional view explaining other Example 1 of this invention. (B) Partially enlarged longitudinal sectional view for explaining another embodiment 2 of the present invention. (C) The elements on larger scale which explain the other Example 3 of this invention. (A) Partial expansion longitudinal cross-sectional view explaining Example 2 of this invention. (B) Explanatory drawing which shows a crimping completion state in the expanded sectional view of FIG. FIG. 6 is a view for explaining a mounting position of a filter frame body and a lens barrel for explaining a conventional example according to the present invention. (A) It is a conventional example explanatory drawing concerning this invention, and is AA partial expanded sectional view of FIG. (B) Explanatory drawing which shows the crimping completion state of FIG.

The filter lens holding mechanism according to the present invention can form the filter frame in the optical axis direction, that is, the thickness of the filter frame, and is built in the filter frame in a filter with a fixed filter diameter. The present invention provides a filter lens holding mechanism in a filter frame that can maximize the effective diameter of the filter lens, and provides a filter frame that is resistant to vignetting even when mounted on the front surface of a telephoto lens or a wide-angle lens. The filter lens holding mechanism according to the present invention includes a filter lens in a state in which no physical distortion or distortion due to heating is applied to the filter lens when the filter lens is fixed in the filter frame. The present invention provides a caulking processing means capable of holding various filter lenses in a frame.

The filter frame according to the present invention has a great utility value such as a lens protection filter, a circular polarization filter, a light quantity reduction filter, a light effect filter that brings about a special effect, and a soft focus filter that can express a subject softly. The present invention relates to a holding mechanism for various filter lenses for a digital camera.

With the widespread use of digital single-lens reflex cameras, it is possible to take pictures while directly confirming the effects of using filters on the viewfinder and LCD screen, or to install various interchangeable lenses and to have various effects at the tip of the interchangeable lens barrel. It is now possible to enjoy shooting with a camera.

However, the filter contains and holds a disk-shaped filter lens having various effects in the filter frame body, and the inner diameter of the filter frame body on the incident light side has a hood or the like from the front edge to the rear. A front cylinder frame part with a female thread part is formed for the attachment of different filters and different filters, and the outer diameter on the camera lens barrel side of the filter frame body is the inner diameter of the camera lens barrel. A rear cylinder frame portion is formed in which a male screw portion screwed into a mounting female screw portion provided in the portion is screwed.

Accordingly, the dimension in the optical axis direction of the filter frame body, that is, the thickness of the filter frame body, the front cylinder frame part in which the female screw part is screwed, the thickness of the filter lens, and the annular ring for holding the filter lens In addition, the conventional filter frame is inevitably thicker because the thickness of the filter frame is increased. Has the drawback of causing vignetting when used on the tip of a camera lens barrel.

In addition, the filter requires a mechanism for holding a disc-shaped filter lens in the filter frame body having a predetermined filter aperture. The filter lens holding mechanism includes, for example, a holding ring for holding the filter and a ring spring. A method to be used or a method of fixing a part of the rear frame of the filter lens by caulking is known. In the caulking filter holding mechanism, an annular edge protruding in an annular shape is provided on the incident light side inner diameter portion of the filter frame body, and after the filter lens is fitted behind the annular edge, the filter lens The filter lens is fixed and held in the filter frame main body by caulking the rear peripheral edge with a caulking die tool or caulking heating tool.

Thus, in the method of fixing the filter lens by the caulking process, when the annular edge provided on the incident light side inner diameter part of the filter frame body is subjected to the shape process or caulking process of the caulking part provided at the rear part of the filter lens. The effective diameter formed by the annular edge of the filter lens is generally reduced due to being limited by the outer diameter of the caulking mold tool and the outer diameter of the caulking heating tool. Even if the frame body is made thin, the effective diameter of the filter lens is reduced, resulting in a drawback that the vignetting phenomenon occurs.

Furthermore, the filter lens holding mechanism in the conventional filter frame is such that when the tip end portion of the caulking velvet part is bent by the caulking mold and the caulking process is performed, the bent portion by caulking directly contacts the peripheral edge portion of the filter lens. In the caulking process with the corner portion at the peripheral edge of the filter lens serving as a fulcrum, the pressure deformation force for caulking process is applied to the filter lens as distortion, and the physical distortion depends on the holding accuracy of the filter lens and This causes deformation of the filter lens surface, which adversely affects the filter lens holding mechanism.

Thus, the present invention eliminates the drawbacks of conventional caulking, and the filter manufacturing method by caulking described above produces a filter frame body by cutting a metal annular ring such as aluminum or brass. When a filter lens is fitted by physical caulking, and a ring-shaped filter frame body is formed by molding a composite resin such as a thermoplastic resin or fiber reinforced plastic made of a polymer compound. It can be used to produce a great effect when the filter lens is manufactured by fitting by heat caulking.

Thus, in the present invention, the filter frame main body mounted on the front end of the camera lens barrel is substantially bisected by the annular filter frame main body, the incident light side being the front cylinder frame, and the camera lens barrel side being the rear cylinder. An internal thread portion for attaching an attachment is screwed to the inner diameter portion of the front cylinder frame from the incident light side on the front tube frame, and a screw to the camera lens barrel is formed on the outer periphery of the rear tube frame. A wear male screw portion is screwed, and a filter lens holding ring portion is provided on the inner side of the center portion of the filter frame body composed of the female screw portion and the male screw portion so as to protrude toward the optical axis side. An annular filter lens front edge frame is provided at the front end of the filter lens. The filter lens is fitted and held in the rear fitting frame of the filter lens front edge frame, and the filter is fitted and held in the rear fitting frame. Caulking to hold the lens behind the back The B portion has an L shape from the rear portion of the filter lens front edge frame and forms an annular body extending in the optical axis C direction of the filter lens. A caulking contact portion is provided for abutting the rear end portion of the filter lens so as to sandwich the filter lens, and an inner diameter portion of the caulking bellow portion is in contact with a circular peripheral portion of the filter lens at a bending deformation portion of the caulking contact portion. In order to prevent the deformation of the filter lens, a circumferential groove for bending deformation that opens in the direction of the circumferential edge of the filter lens is formed. It is preferable to configure so that it does not touch.

Further, in the present invention, a caulking contact portion provided on the inner diameter side of the tip end portion of the L-shaped caulking bellows portion is provided at the rear end portion of the filter lens that is fitted and held at the rear portion of the filter lens front edge frame. A chamfering abutting surface having an inclination of at least about 45 degrees with respect to the optical axis C of the filter lens is provided so as to abut, and the caulking abutting portion of the caulking bellows portion is caulked on the chamfering abutting surface of the filter lens. It is preferable that the filter lens is sandwiched between the filter lens front edge frame and the caulking contact portion of the caulking bellows portion.

Further, a caulking abutting portion for holding the filter lens in contact with the rear end chamfered portion of the filter lens is provided on the inner diameter side of the tip end portion of the L-shaped caulking portion in the present invention. A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed on the bending deformation portion of the filter lens so that the inner diameter portion of the caulking bellows does not contact the circumferential edge of the filter lens. The deformed circumferential groove has a semicircular bottom cross-sectional shape, and is configured so that the deformed portion of the crimping bellows portion does not contact the circumferential edge of the filter lens or the filter lens surface when the caulking bellows portion is subjected to pressure deformation. Is preferred.

In addition, a caulking contact portion for abutting the chamfered portion of the rear end portion of the filter lens to clamp the filter lens is provided on the inner diameter side of the tip end portion of the L-shaped caulking portion in the present invention. A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed on the bending deformation portion of the filter lens so that the inner diameter portion of the caulking bellows does not contact the circumferential edge of the filter lens. The deformed circumferential groove has a trapezoidal shape in cross section at the bottom, and the deformed portion of the crimping bellows portion is configured not to contact the circumferential edge portion of the filter lens or the filter lens surface when the caulking bellows portion is subjected to pressure deformation. preferable.

Further, on the inner diameter side of the tip end portion of the L-shaped caulking portion in the present invention, there is provided a caulking abutting portion for abutting the chamfered portion of the rear end portion of the filter lens so as to sandwich the filter lens. A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed in the bending deformation portion of the filter lens so that an inner diameter portion of the caulking lens portion does not contact the circumferential edge of the filter lens. The bottom cross-sectional shape of the circumferential groove for use has a V shape, and the deformed portion of the caulking bellows portion is configured not to contact the circumferential edge portion of the filter lens or the filter lens surface when the caulking bellows portion is subjected to pressure deformation. Yes.

Furthermore, the present invention provides that the filter lens is fitted and held at the rear part of the filter lens front edge frame, and the caulking part that holds the fitted filter lens at the rear part from the rear part of the filter lens front edge frame. The outer appearance has a circular truncated cone shape, and an annular body extending rearward of the filter lens is formed. The inner diameter side of the front end portion of the truncated cone portion of the truncated cone shape is in contact with the chamfered portion of the rear end portion of the filter lens. A caulking contact portion for clamping the filter lens is provided, and the outer peripheral edge of the filter lens is arranged so that the inner peripheral portion of the caulking bellows portion does not contact the circular peripheral portion of the filter lens at the bending deformation portion of the caulking contact portion. A circumferential groove for bending deformation that opens in the direction of the part is formed, and the bottom stepped surface of the circumferential part for bending deformation has a semicircular shape, a trapezoidal shape, or a V-shaped shape, and pressurization of the caulking portion It is preferred that the deformed portion of the Kashimebero portion during shape is configured so as not to contact the circumferential edge and the filter lens surface of the filter lens.

The present invention includes a front cylinder frame, a rear cylinder frame, a female thread part for attaching an attachment, a male thread part to be screwed into a camera lens barrel, and a filter lens retaining ring part that constitute a filter holding mechanism of the filter lens body. In addition, it is preferable that the filter lens front edge portion and the caulking portion are cut with a metal annular ring made of aluminum and brass to produce one filter frame, and the caulking portion is preferably caulked with a caulking die tool. .

The present invention also includes a front cylinder frame, a rear cylinder frame, a female screw part for attachment attachment, a male screw part to be screwed into a camera lens barrel, and a filter lens holding ring part that constitute the filter holding mechanism of the filter lens body. The filter lens front edge portion and the caulking portion are preferably formed by molding a filter frame with a polymer compound, and the caulking portion is preferably caulked with a heat caulking die tool.

Thus, the present invention provides a filter frame for a digital camera in which the dimension of the filter frame in the optical axis direction, that is, the thickness of the filter frame is formed thin, and the filter frame is attached to a telephoto lens or a wide-angle lens. Even now, it has become possible to provide a filter frame that is less vignetting.

In addition, the filter lens holding mechanism according to the present invention provides a filter lens holding mechanism capable of taking the maximum effective diameter of the filter lens incorporated in the filter frame in a filter with a fixed filter aperture. This makes it possible to provide a filter frame that resists vignetting even when mounted on the front of a telephoto lens or wide-angle lens.

Furthermore, the filter lens holding mechanism according to the present invention is a filter lens in a state in which no physical distortion or distortion due to heating is applied to the filter lens when the filter lens is fixed inside the filter frame and held. It is possible to provide caulking processing means capable of holding various filter lenses in the frame, and to provide a filter lens holding mechanism that improves the holding accuracy of the filter lens 2 and does not deform the filter lens surface.

In the present invention, since the filter frame attached to the tip of the camera lens barrel can be made thin, it is possible to reduce the weight of the filter and reduce the load on the autofocus motor. Filters can be provided.

Furthermore, according to the present invention, the number of parts can be drastically reduced as a combination of the filter body parts and the filter lens, and the cost can be reduced and the assembly efficiency can be improved.

FIG. 1 is a cross-sectional view of an essential part of a filter frame for explaining the first embodiment of the present invention. The filter frame is used by being mounted on the front surface of a lens barrel of a digital camera. FIG. 2A is an AA partial enlarged cross-sectional view of FIG. 1, and FIG. 2B is an explanatory view showing a caulking process completion state in the enlarged cross-sectional view of FIG.

In FIG. 1, 1 is a filter frame main body, 2 is a filter lens, 3 is an incident light side, 4 is a camera lens barrel side, and C is a light of the filter frame main body. An axis is shown. In FIG. 1, t indicates the thickness of the filter frame body, φ1 indicates the filter aperture, and φ3 indicates the effective diameter of the filter lens.

The filter lens 2 built in the filter frame body 1 includes a lens protection filter, a circular polarization filter, a light amount reduction filter, a light effect filter that brings about a special effect, and a soft focus that can express the subject softly. Various filter lenses such as industrial filters are used.

Thus, in the first embodiment, the dimension in the optical axis direction C of the filter frame main body 1 mounted on the front surface of the lens barrel, that is, the thickness t of the filter frame main body 1 can be formed thin. Providing a holding mechanism for the filter lens 2 in the filter frame body 1 capable of taking the maximum effective diameter φ3 of the filter lens built in the filter frame body 1 in a filter having a fixed diameter φ1, The present invention provides a filter frame body 1 that is difficult to vignett even when attached to the front surface of a wide-angle lens. The filter lens 2 holding mechanism according to the present invention is such that no physical distortion is applied to the filter lens 2 when the filter lens 2 is fixed inside the filter frame body 1 and held. A caulking mechanism capable of holding various filter lenses 2 in the filter frame body 1 is provided.

2A and 2B, reference numeral 1 denotes a filter frame body, which is manufactured by cutting a metal annular ring made of aluminum or brass. Reference numeral 2 denotes a filter lens, t denotes the thickness of the filter frame main body 1, 3 denotes the incident light side of the filter frame main body, and 4 denotes the camera lens barrel side of the filter frame main body. The frame body 1 is substantially divided into two, and the incident light side 3 is integrally formed as a front cylinder frame 5 and the camera lens barrel side 4 is integrally formed as a rear cylinder frame 6.

A female threaded portion 8 for attaching an attachment such as a hood is screwed into the inner diameter portion 7 of the front cylindrical frame 5 of the filter frame main body 1, and a relief groove 9 is cut in the threaded base of the female threaded portion 8. It is installed. The escape groove 9 is configured such that the male screw of the attachment screwed to the female screw portion 8 is screwed with a clearance and comes into contact with the stopper surface 10 provided on the screw base, and the male screw of the attachment is tightly engaged. And can be detachably screwed into the female screw portion 8 of the front cylinder frame 5.

Next, a male screw portion 12 for mounting to the camera lens barrel is screwed on the outer peripheral portion 11 of the rear cylinder frame 6 of the filter frame main body 1, and the screw base portion of the male screw portion 12 has a relief. A groove 13 is engraved. The escape groove 13 has a configuration in which a female screw of a camera lens barrel to which the male screw portion 12 is screwed is loosely screwed and abuts against a stopper surface 14 provided on the screw base portion. The male screw portion 12 of the filter frame main body 1 can be detachably screwed without being tightly engaged with the distal end portion of the camera lens barrel.

An annular filter lens holding ring 16 is provided on the inner side 15 of the central part of the front and rear cylinder frames 5 and 6 in an annular shape protruding toward the optical axis C side. A filter lens front edge frame 17 of the filter lens 2 is provided at the leading edge.

Thus, as shown in FIG. 2 (A), a caulking bevel portion 18 is formed in the rear portion of the filter lens front edge frame 17 by engraving an annular cutting groove 19 and a bending deformation circumferential groove 20. The caulking portion 18 is formed by forming an annular cutting groove 19 that opens toward the camera lens barrel and a bending deformation circumferential groove 20 that opens in the direction of the circumferential edge of the filter lens 2. A caulking portion 18 having an L-shaped shape extending from the rear portion of the frame 17 in the direction of the optical axis C of the filter lens 2 is formed.

A caulking contact portion 21 provided on the inner diameter side of the distal end portion of the L-shaped caulking portion 18 is attached to the rear end portion of the filter lens 2 fitted and held at the rear portion of the filter lens front edge frame 17. A chamfering contact surface 22 having an inclination of at least about 45 degrees with respect to the optical axis C of the filter lens 2 is provided so as to be in contact with the chamfering contact portion 22 of the caulking velop portion 18 on the chamfering contact surface 22 of the filter lens. 21 is configured to abut by caulking and the filter lens 2 is sandwiched between the filter lens front edge frame 17 and the caulking abutment portion 21 of the caulking bellows portion 18.
The caulking portion 18 is pressure-deformed by the tapered portion 24 and the caulking portion 25 of the annular caulking die 23, and the tip of the abutting portion 21 of the caulking portion 18 is shown in FIG. A physical caulking process that abuts against the chamfering abutment surface 22 of the filter lens is performed.

Accordingly, in the first embodiment, the filter frame main body 1 attached to the tip of the camera lens barrel is substantially bisected into an annular filter frame main body, the incident light side 3 is used as the front cylindrical frame 5, and the camera lens barrel side 4 is used. The rear cylinder frame 6 is formed, and the front cylinder frame 5 is provided with an internal thread portion 8 for attaching an attachment to the inner diameter portion 7 of the front cylinder frame 5 from the incident light side 3, and the outer periphery of the rear cylinder frame 6 The part 11 is provided with a male screw part to be screwed into the camera lens barrel, and a filter lens holding ring part 16 is provided on the inner side 15 of the center portion of the filter frame body 1 composed of the female screw part and the male screw part 12. An annular filter lens front edge frame 17 is provided at the tip of the filter lens holding ring portion 16 so as to project toward the optical axis C side, and the filter lens front edge frame 17 is filtered by a rear fitting frame 17a. The lens 2 is fitted and held on the rear fitting frame 17a. The caulking portion 18 that holds the filter lens 2 that is attached and held on the rear back surface has an L-shape from the rear portion of the front edge frame 17 of the filter lens and forms an annular body that extends in the optical axis C direction of the filter lens 2. A caulking abutment portion 21 is provided on the inner diameter side of the tip end portion of the L-shaped caulking portion 18 so as to abut against the rear end portion of the filter lens 2 so as to sandwich the filter lens 2. A bending deformation circumferential groove 20 that opens in the direction of the circumferential edge of the filter lens 2 is formed in the bending deformation portion of the portion 21 so that the inner peripheral portion of the caulking bellows 18 does not contact the circumferential edge of the filter lens 2. A filter frame configured so that the deformed portion of the crimping bellows portion 18 is not in contact with the circumferential edge of the filter lens 2 or the filter lens surface when the caulking bellows portion 18 is pressure-deformed. Kicking as a holding mechanism of the filter lens.

Thus, the filter lens holding mechanism in the filter frame of the first embodiment shown in FIGS. 2A and 2B is formed by caulking when the caulking die 23 is caulked with the caulking dies 18. The bent portion is not directly in contact with the rear peripheral edge of the filter lens 2 and the pressure deformation force for caulking is not applied to the filter lens front edge frame 17 during caulking. The thickness t2 of the filter lens holding ring portion 16 that forms the edge portion 17 and the filter lens front edge portion 17 can be made thin because no force is applied during the caulking process.

Therefore, the thickness t of the filter frame main body 1 is determined by the thickness t1 of the front cylinder frame 5 constituted by the minimum functions of the female screw portion 8 and the relief groove 9 and the minimum functions of the male screw portion 12 and the relief groove 13. The thickness t2 of the filter lens holding ring 16 that can be made thinner than the conventional thickness t3 is added to the thickness t3 of the tube frame 6, and as a whole, the thickness t of the filter frame body 1 in the optical axis direction is minimized. Therefore, it is possible to provide a filter lens holding mechanism that is less likely to cause vignetting compared to a conventional filter frame.

Further, the filter lens holding mechanism in the conventional filter frame cuts an annular cutting groove when manufacturing the entire caulking portion for caulking, and the annular cutting groove is deeply cut in the optical axis C direction. The annular cutting groove is formed by inserting a caulking die and pressurizing and deforming the annular cutting groove. The inner diameter φ2 dimension and the width W of the annular cutting groove have to be engraved and engraved. However, the shape of the caulking bellows portion 18 in the present invention is the same as that of the annular cutting groove 19 opened to the camera lens barrel side and the above-described shape. By engraving the circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the filter lens 2, the filter lens 2 has an L-shape from the rear part of the front edge frame 17 and extends in the optical axis C direction of the filter lens 2. ring The caulking part 18 having a body is formed, the depth of the annular cutting groove 19 can be configured to be very shallow, and the width W of the annular cutting groove 19 can be formed small. In the filter frame main body 1 in which the inner diameter of the filter lens front edge portion 17 provided at the tip end edge 16 of the filter 16 can be increased and the filter aperture φ is determined, the effective diameter φ3 of the filter lens is remarkably increased to cause vignetting. It is possible to provide a filter lens holding mechanism that is unlikely to occur.

Further, the filter lens holding mechanism in the filter frame of the present invention shown in FIGS. 2 (A) and 2 (B) can be bent by caulking when the tip end portion of the caulking portion 18 is bent and caulked by the caulking die 23. Since the portion forms a large space by the circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the filter lens 2 and does not directly contact the corner or the like at the rear edge of the filter lens 2, The filter lens 2 can be provided with a holding mechanism for holding the filter lens 2 so that the pressure deformation force for crimping is not applied to the filter lens 2 as distortion, and the filter lens 2 is not deformed and the surface of the filter lens is not deformed. .

Next, a specific example in which the first embodiment is made easier to use will be described with reference to FIGS. 3 (A), (B), and (C). 3A, 3B, and 3C, the same reference numerals as those in FIG. 2 denote the same components, and the filter frame main body 1 attached to the tip of the camera lens barrel is an annular filter frame. The main body is substantially bisected and the incident light side 3 is formed as a front cylinder frame 5 and the camera lens barrel side 4 is formed as a rear cylinder frame 6. The front cylinder frame 5 has an inner diameter portion 7 of the front cylinder frame 5 from the incident light side 3. A female screw portion 8 for attaching the attachment is screwed to the outer peripheral portion 11 of the rear cylinder frame 6, and a male screw portion 12 to be screwed to the camera lens barrel is screwed. A filter lens holding ring 16 is provided on the inner side 15 of the central portion of the filter frame body 1 including the screw portion 12 so as to protrude toward the optical axis C, and an annular filter lens is provided at the tip of the filter lens holding ring 16. A front edge frame 17 is provided, and the rear portion of the filter lens front edge frame 17 is fitted. The caulking bellows 18 that holds and holds the filter lens 2 by the rear fitting frame 17a at the rear rear surface 17a is inserted from the rear portion of the front edge frame 17 of the filter lens. An annular body having a letter shape and extending in the optical axis C direction of the filter lens 2 is formed, and an inner diameter side of a tip end portion of the L-shaped caulking portion 18 is in contact with a rear end portion of the filter lens 2. A caulking contact portion 21 for holding the filter lens 2 is provided, and the inner diameter portion of the caulking bellows portion 18 is not in contact with the circumferential peripheral portion of the filter lens 2 at a bending deformation portion of the caulking contact portion. A circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the luter lens 2 is formed so that the deformed portion of the caulking bellows 18 is the circumference of the filter lens 2 when the caulking bellows 18 is pressed and deformed. A holding mechanism of the filter lens in filter frame configured so as not to contact the part and the filter lens surface.

As shown in FIG. 3A, in the first specific example, the filter lens 2 is brought into contact with the rear end chamfering contact portion 22 of the filter lens 2 on the inner diameter side of the distal end portion of the L-shaped caulking portion 18. A caulking contact portion 21 is provided for clamping the filter lens 2 so that the inner peripheral portion of the caulking bellows portion does not come into contact with the circumferential edge of the filter lens 2 at the bending deformation portion of the caulking contact portion 21. A bending deformation circumferential groove 20 opened in the direction of the circumferential edge is formed, and the bending deformation circumferential groove 20 has a bending deformation circumferential groove bottom 26 having a semicircular bottom cross-sectional shape; As shown by an imaginary line at the time of pressure deformation of the caulking portion 18, the deformation portion of the caulking portion 18 does not come into contact with the circumferential edge of the filter lens 2 or the surface of the filter lens 2. There is provided a lifting mechanism.

Further, in the second specific example, as shown in FIG. 3B, the filter lens 2 is brought into contact with the rear end chamfering contact portion 22 of the filter lens 2 on the inner diameter side of the tip end portion of the L-shaped caulking portion 18. 2 is provided, and the filter lens is arranged so that the inner peripheral portion of the crimping portion 18 does not come into contact with the circumferential edge of the filter lens 2 at the bending deformation portion of the crimping contact portion 21. 2 is formed with a circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the circumferential groove, and has a circumferential groove bottom 27 for bending deformation having a trapezoidal cross section at the bottom of the circumferential groove 20 for bending deformation. As shown by an imaginary line during the pressure deformation of the caulking bellows portion 18, the deformation of the caulking bellows portion 18 does not contact the circumferential edge of the filter lens 2 or the filter lens surface. It is intended to provide a mechanism.

Further, in the third specific example, as shown in FIG. 3C, the filter lens 2 is brought into contact with the rear end chamfering contact portion 22 of the filter lens 2 on the inner diameter side of the tip end portion of the L-shaped caulking portion 18. 2 is provided, and the filter lens is arranged so that the inner peripheral portion of the crimping portion 18 does not come into contact with the circumferential edge of the filter lens 2 at the bending deformation portion of the crimping contact portion 21. 2 is formed with a circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the circumferential groove 20, and the circumferential section 20 for bending deformation has a V-shaped cross section at the bottom of the circumferential groove 20 for bending deformation. The filter lens in the filter frame configured so that the deformed portion of the caulking bellows portion 18 does not contact the circumferential edge of the filter lens 2 or the filter lens surface as indicated by an imaginary line when the caulking bellows portion 18 is pressed and deformed. There is provided a lifting mechanism.

4A and 4B illustrate a second embodiment of the present invention, and the same reference numerals as those in FIG. 2 indicate the same components. 4A and 4B, reference numeral 1 denotes a filter frame body, which is manufactured by cutting a metal annular ring made of aluminum or brass. Reference numeral 2 denotes a filter lens, t denotes the thickness of the filter frame main body 1, 3 denotes the incident light side of the filter frame main body, and 4 denotes the camera lens barrel side of the filter frame main body. The frame body 1 is substantially divided into two, and the incident light side 3 is integrally formed as a front cylinder frame 5 and the camera lens barrel side 4 is integrally formed as a rear cylinder frame 6.

A female threaded portion 8 for attaching an attachment such as a hood is screwed into the inner diameter portion 7 of the front cylindrical frame 5 of the filter frame main body 1, and a relief groove 9 is cut in the threaded base of the female threaded portion 8. It is installed. The escape groove 9 is configured such that the male screw of the attachment screwed to the female screw portion 8 is screwed with a clearance and comes into contact with the stopper surface 10 provided on the screw base, and the male screw of the attachment is tightly engaged. And can be detachably screwed into the female screw portion 8 of the front cylinder frame 5.

Next, a male screw portion 12 for mounting to the camera lens barrel is screwed on the outer peripheral portion 11 of the rear cylinder frame 6 of the filter frame main body 1, and the screw base portion of the male screw portion 12 has a relief. A groove 13 is engraved. The escape groove 13 has a configuration in which a female screw of a camera lens barrel to which the male screw portion 12 is screwed is loosely screwed and abuts against a stopper surface 14 provided on the screw base portion. The male screw portion 12 of the filter frame main body 1 can be detachably screwed without being tightly engaged with the distal end portion of the camera lens barrel.

An annular filter lens holding ring 16 is provided on the inner side 15 of the central part of the front and rear cylinder frames 5 and 6 in an annular shape protruding toward the optical axis C side. A filter lens front edge frame 17 of the filter lens 2 is provided at the leading edge.

Thus, the filter lens 2 is fitted and held in the rear fitting frame 17a of the filter lens front edge frame 17, and behind the rear fitting frame 17a, as shown in FIG. The caulking bellows portion 18 is formed by carving an annular cutting groove 19 and a bending deformation circumferential groove 20, and the caulking bellows portion 18 is formed with the annular cutting groove 19 opened to the camera lens barrel side and the filter. A caulking portion 18 having an annular body extending in the optical axis C direction of the filter lens 2 from the rear portion of the filter lens front edge frame 17 is formed by engraving the circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the lens 2. ing.

Further, at least the caulking abutment portion 21 provided on the inner diameter side of the distal end portion of the caulking bellows portion 18 abuts on the rear end portion of the filter lens 2 fitted and held at the rear portion of the filter lens front edge frame 17. A chamfering contact surface 22 having an inclination of about 45 degrees with respect to the optical axis C of the filter lens 2 is provided, and the caulking contact portion 21 of the caulking / veloping portion 18 is caulked on the chamfering contact surface 22 of the filter lens. The filter lens 2 is configured to abut and sandwich the filter lens 2 between the filter lens front edge frame 17 and the caulking abutting portion 21 of the caulking bellows portion 18.
The caulking portion 18 is pressure-deformed by the tapered portion 24 and the caulking portion 25 of the annular caulking die 23, and the tip of the abutting portion 21 of the caulking portion 18 is shown in FIG. A physical caulking process that abuts against the chamfering abutment surface 22 of the filter lens is performed.

In the second embodiment, the filter lens 2 is fitted and held at the rear part of the filter lens front edge frame 17, and the caulking part 18 that holds the fitted filter lens 2 at the rear part is formed by the filter lens front edge frame 17. An annular body 30 having a frustoconical shape 29 and extending rearward of the filter lens 2 is formed from the rear portion of the filter 17, and the filter lens 2 is formed on the inner diameter side of the tip of the caulking bellows portion 18 of the frustoconical shape 29. A caulking contact portion 21 for holding the filter lens 2 in contact with the chamfering contact surface 22 of the rear end portion is provided, and a bending deformation portion of the caulking contact portion 21 is provided at a circumferential edge portion of the filter lens 2. A bending deformation circumferential groove 20 opened in the direction of the circumferential edge of the filter lens 2 is formed so that the inner diameter portion of the caulking bellows portion 18 does not contact, and the bottom stepped surface shape of the bending deformation circumferential groove 20 is formed. Has a semicircular shape, a trapezoidal shape, or a V-shape, and is configured so that the deformed portion of the crimping bellows portion 18 does not come into contact with the circular peripheral portion of the filter lens 2 or the filter lens surface when the caulking bellows portion 18 is pressure-deformed. A filter lens holding mechanism is provided.

Thus, the filter lens holding mechanism in the filter frame of the second embodiment shown in FIGS. 4A and 4B is formed by caulking when the end portion of the caulking velocities 18 is caulked by the caulking die 23. The bent portion is not directly in contact with the rear peripheral edge of the filter lens 2 and the pressure deformation force for caulking is not applied to the filter lens front edge frame 17 during caulking. The thickness t2 of the rear fitting frame 17a that forms the edge 17 and the filter lens front edge 17 can be thin.

Therefore, the thickness t of the filter frame main body 1 is determined by the thickness t1 of the front cylinder frame 5 constituted by the minimum functions of the female screw portion 8 and the relief groove 9 and the minimum functions of the male screw portion 12 and the relief groove 13. The thickness t2 of the filter lens holding ring portion 16 that can be made thinner than the conventional one is added to the thickness t3 of the tube frame 6, and as a whole, the thickness t in the optical axis direction of the filter frame body 1 is minimized. Therefore, it is possible to provide a filter lens holding mechanism that is less likely to cause vignetting compared to a conventional filter frame.

Further, the filter lens holding mechanism in the conventional filter frame is formed by engraving an annular cutting groove 19 when the entire caulking portion for caulking is manufactured, and the annular cutting groove 19 is formed on the optical axis. It is formed by cutting deeply in the C direction, and press-deforming is performed by inserting a caulking die into the annular cutting groove. The annular cutting groove has an inner diameter dimension φ2 of the annular cutting groove. However, the shape of the caulking portion 18 in the present invention is open in the direction of the annular cutting groove 19 that opens toward the camera lens barrel and the circumferential edge of the filter lens 2. The caulking part 1 having an annular body that has a frustoconical appearance from the rear part of the filter lens front edge frame 17 and extends in the optical axis C direction of the filter lens 2 by engraving the circumferential groove 20 for bending deformation. Since the annular cutting groove 19 can be formed with a small depth and the width W of the annular cutting groove 19 can be reduced, it is provided at the front edge of the filter lens holding ring portion 16. It is possible to increase the inner diameter of the filter lens leading edge portion 17, and in the filter frame body 1 in which the filter aperture φ is determined, the effective diameter φ3 of the filter lens is remarkably increased so that vignetting is difficult to occur. A mechanism can be provided.

Further, the filter lens holding mechanism in the filter frame of the present invention shown in FIGS. 4 (A) and 4 (B) can be bent by caulking when the end portion of the caulking portion 18 is bent by the caulking die 23 to be caulked. A portion is formed by engraving the circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the filter lens 2, so that a gap is created and the filter lens 52 is not directly in contact with the corner or the like at the rear edge. Therefore, the pressure deformation force for caulking processing is not applied to the filter lens 2 as distortion, and the filter lens holding mechanism can be provided without causing the holding accuracy of the filter lens 2 or the deformation of the filter lens surface. .

Thus, in the present invention, both the first and second embodiments are the front tube frame, the rear tube frame, the female thread portion for attaching the attachment, and the screw to the camera lens barrel, which constitute the filter holding mechanism of the filter lens body. The wear male screw part, filter lens holding ring part, filter lens front edge part, and caulking part are manufactured as a single filter frame by cutting a metal annular ring made of aluminum or brass, and the caulking part is caulking. The filter lens holding mechanism in the filter frame that is caulked with a metal mold tool has been described.

However, the present invention is not limited to a metal filter frame made of aluminum, brass, or the like, but to a front tube frame, a rear tube frame, a female screw portion for attaching an attachment, and a camera lens barrel constituting the filter holding mechanism of the filter lens body. The threaded male thread part, filter lens retaining ring part, filter lens front edge part, and caulking part are molded as a single filter frame with a polymer compound, and the caulking part is processed by a heat caulking die tool. The filter lens holding mechanism in the filter frame to be crimped can be implemented without any problem.

The present invention provides a filter frame for a digital camera in which the dimension of the filter frame in the optical axis direction, that is, the thickness of the filter frame is formed thin, and the filter frame is vignetted even when mounted on a telephoto lens or a wide-angle lens. It became possible to provide a difficult filter frame.

In addition, the filter lens holding mechanism according to the present invention provides a filter lens holding mechanism capable of taking the maximum effective diameter φ3 of the filter lens built in the filter frame in a filter having a predetermined filter aperture φ1. This makes it possible to provide a filter frame that is resistant to vignetting even when mounted on the front of a telephoto lens or wide-angle lens.

Furthermore, the filter lens holding mechanism according to the present invention has a filter lens built into the filter frame, and when the filter lens is fixed, the filter lens has physical distortion caused by a caulking metal mold or heat caulking metal. It is possible to provide caulking processing means that can hold various filter lenses in the filter frame without applying thermal strain due to heating of the mold, and it is possible to improve the holding accuracy of the filter lens and the filter lens that does not deform the filter lens surface A holding mechanism can be provided.

In the present invention, since the filter frame attached to the tip of the camera lens barrel can be made thin, it is possible to reduce the weight of the filter and reduce the load on the autofocus motor. Filters can be provided.

Further, according to the present invention, the number of parts can be drastically reduced as a combination of parts of the filter main body and the filter lens, and it has become possible to reduce the manufacturing cost of the filter and improve the assembly efficiency.

DESCRIPTION OF SYMBOLS 1 Filter frame main body 2 Filter lens 3 Incident light 4 Camera lens barrel side 5 Front cylinder frame 6 Rear cylinder frame 7 Inner diameter part 8 Female thread part 9 Relief groove 10 Stopper surface 11 Outer peripheral part 12 Male thread part 13 Relief groove 14 Stopper surface 15 Inner side 16 of the center part Filter lens holding ring part 17 Filter lens front edge frame 17a Rear fitting frame 18 Caulking groove part 19 Annular cutting groove 20 Circumferential groove for bending deformation 21 Caulking contact part 22 Chamfering contact part 23 Mold 24 Tapered portion 25 Caulking portion 26 Semicircular bending deformation circumferential groove bottom 27 Trapezoidal bending deformation circumferential groove bottom 28 V-shaped bending deformation circumferential groove bottom 29 Frustum shape 30 Annulus C Optical axis t Filter frame body thickness t1 Front tube frame thickness t2 Filter lens holding ring thickness t3 Rear tube frame thickness φ1 Filter aperture φ2 Annular The width of the effective diameter W annular cutting groove of the inner diameter φ3 filter lens Kezumizo

As shown in FIG. 3A, in the first specific example, the filter lens 2 is brought into contact with the chamfering contact surface 22 of the rear end portion of the filter lens 2 on the inner diameter side of the tip end portion of the L-shaped caulking portion 18. A caulking contact portion 21 is provided for clamping the filter lens 2 so that the inner peripheral portion of the caulking bellows portion does not come into contact with the circumferential edge of the filter lens 2 at the bending deformation portion of the caulking contact portion 21. A bending deformation circumferential groove 20 opened in the direction of the circumferential edge is formed, and the bending deformation circumferential groove 20 has a bending deformation circumferential groove bottom 26 having a semicircular bottom cross-sectional shape; As shown by an imaginary line at the time of pressure deformation of the caulking portion 18, the deformation portion of the caulking portion 18 does not come into contact with the circumferential edge of the filter lens 2 or the surface of the filter lens 2. There is provided a lifting mechanism.

Further, in the second specific example, as shown in FIG. 3B, the filter lens 2 is brought into contact with the rear end chamfering contact surface 22 of the filter lens 2 on the inner diameter side of the tip end portion of the L-shaped caulking portion 18. 2 is provided, and the filter lens is arranged so that the inner peripheral portion of the crimping portion 18 does not come into contact with the circumferential edge of the filter lens 2 at the bending deformation portion of the crimping contact portion 21. 2 is formed with a circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the circumferential groove, and has a circumferential groove bottom 27 for bending deformation having a trapezoidal cross section at the bottom of the circumferential groove 20 for bending deformation. As shown by an imaginary line during the pressure deformation of the caulking bellows portion 18, the deformation of the caulking bellows portion 18 does not contact the circumferential edge of the filter lens 2 or the filter lens surface. It is intended to provide a mechanism.

Further, in the third specific example, as shown in FIG. 3C, the filter lens 2 is brought into contact with the rear end chamfering contact surface 22 of the filter lens 2 on the inner diameter side of the tip end portion of the L-shaped caulking portion 18. 2 is provided, and the filter lens is arranged so that the inner peripheral portion of the crimping portion 18 does not come into contact with the circumferential edge of the filter lens 2 at the bending deformation portion of the crimping contact portion 21. 2 is formed with a circumferential groove 20 for bending deformation that opens in the direction of the circumferential edge of the circumferential groove 20, and the circumferential section 20 for bending deformation has a V-shaped cross section at the bottom of the circumferential groove 20 for bending deformation. The filter lens in the filter frame configured so that the deformed portion of the caulking bellows portion 18 does not contact the circumferential edge of the filter lens 2 or the filter lens surface as indicated by an imaginary line when the caulking bellows portion 18 is pressed and deformed. There is provided a lifting mechanism.

Claims (8)

The filter frame main body attached to the tip of the camera lens barrel is roughly divided into an annular filter frame main body, and the incident light side is formed as a front cylinder frame, and the camera lens barrel side is formed as a rear cylinder frame. Has a female threaded portion for attachment attachment to the inner diameter of the front cylindrical frame from the incident light side, and a male threaded portion to be screwed to the camera lens barrel is threaded on the outer peripheral portion of the rear cylindrical frame, A filter lens holding ring is provided on the inner side of the center of the filter frame main body composed of the female screw part and the male screw part so as to protrude toward the optical axis, and an annular filter lens is provided at the tip of the filter lens holding ring part. A front edge frame is provided, the filter lens is fitted and held at the rear part of the front edge frame of the filter lens, and the caulking part that holds the fitted and held filter lens at the rear rear surface is the front edge frame of the filter lens. L-shaped from the rear An annular body having a shape and extending in the direction of the optical axis C of the filter lens is formed, and the filter lens is held in contact with the rear end portion of the filter lens on the inner diameter side of the tip end portion of the L-shaped caulking portion. A caulking abutment portion is provided, and an opening is formed in the direction of the circumferential edge of the filter lens so that the inner peripheral portion of the caulking bellows portion does not contact the circumferential edge of the filter lens at the bending deformation portion of the caulking contact portion. A filter in a filter frame, wherein a circumferential groove for bending deformation is formed so that the deformed portion of the caulking bellows portion does not come into contact with the circumferential edge portion of the filter lens or the filter lens surface during pressure deformation of the caulking bellows portion. Lens holding mechanism. At least the filter so that a caulking contact portion provided on the inner diameter side of the tip end portion of the L-shaped caulking velvet portion abuts on the rear end portion of the filter lens fitted and held at the rear portion of the filter lens front edge frame. A chamfering contact surface having an inclination of about 45 degrees with respect to the optical axis C of the lens is provided, and the caulking contact portion of the caulking bellows portion contacts the chamfering contact surface of the filter lens by caulking and processing. The filter lens holding mechanism in the filter frame according to claim 1, wherein the filter lens is sandwiched between the filter lens front edge frame and a caulking contact portion of the caulking bellows portion. On the inner diameter side of the tip end portion of the L-shaped caulking portion, there is provided a caulking abutting portion for abutting the rear end portion chamfering abutting portion of the filter lens so as to sandwich the filter lens, and bending deformation of the caulking abutment portion A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed in the portion so that the inner diameter of the crimping bellows does not contact the circumferential edge of the filter lens. The bottom cross-sectional shape of the groove has a semicircular shape, and the deformed portion of the caulking bellows portion is configured not to contact the circumferential edge of the filter lens or the filter lens surface when the caulking bellows portion is subjected to pressure deformation. A filter lens holding mechanism in the filter frame according to claim 1. On the inner diameter side of the tip end portion of the L-shaped caulking portion, there is provided a caulking abutting portion for abutting the rear end portion chamfering abutting portion of the filter lens so as to sandwich the filter lens, and bending deformation of the caulking abutment portion A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed in the portion so that the inner diameter of the crimping bellows does not contact the circumferential edge of the filter lens. The bottom cross-sectional shape of the groove has a trapezoidal shape, and the deformed portion of the caulking bellows portion is configured not to contact the circular peripheral portion of the filter lens or the filter lens surface when the caulking bellows portion is subjected to pressure deformation. A holding mechanism for a filter lens in the filter frame according to claim 1. On the inner diameter side of the tip end portion of the L-shaped caulking portion, there is provided a caulking abutting portion for abutting the rear end portion chamfering abutting portion of the filter lens so as to sandwich the filter lens, and bending deformation of the caulking abutment portion A bending deformation circumferential groove that opens in the direction of the circumferential edge of the filter lens is formed in the portion so that the inner diameter of the crimping bellows does not contact the circumferential edge of the filter lens. The bottom cross-sectional shape of the groove is V-shaped, and the deformed portion of the caulking bellows portion is configured not to contact the circumferential edge of the filter lens or the filter lens surface when the caulking bellows portion is deformed under pressure. The filter lens holding mechanism in the filter frame according to claim 1. The filter lens is fitted and held at the rear part of the filter lens front edge frame, and the caulking part that holds the fitted filter lens at the rear part is frustoconical in shape from the rear part of the filter lens front edge frame. And an annular body extending rearward of the filter lens is formed, and the filter lens is clamped by coming into contact with the chamfering contact portion of the rear end portion of the filter lens on the inner diameter side of the tip portion of the frustum-shaped caulking portion. And a bending deformation portion of the caulking abutment that opens in the direction of the circumferential edge of the filter lens so that the inner diameter of the caulking bellows does not contact the circumferential edge of the filter lens. A circumferential groove for deformation is formed, and the bottom step shape of the circumferential portion for bending deformation has a semicircular shape, a trapezoidal shape, or a V-shaped shape. Holding mechanism of the filter lens in filter frame according to any of claims 1 to 5 deformation of parts is characterized by being configured so as not to contact with the circumferential edge and the filter lens surface of the filter lens. Front cylinder frame, rear cylinder frame, female thread part for attachment attachment, male thread part to be screwed into the camera lens barrel, filter lens retaining ring part, filter lens front edge part constituting the filter lens body filter holding mechanism The caulking bellows portion is cut with a metal annular ring made of aluminum or brass to produce one filter frame, and the caulking bellows portion is caulked with a caulking die tool. A filter lens holding mechanism in the filter frame according to claim 6. Front cylinder frame, rear cylinder frame, female thread part for attachment attachment, male thread part to be screwed into the camera lens barrel, filter lens retaining ring part, filter lens front edge part constituting the filter lens body filter holding mechanism The caulking part is molded with a polymer compound to be manufactured as a single filter frame, and the caulking part is processed by a caulking die tool. The filter lens holding mechanism in the filter frame described in 1.

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