JP3300538B2 - Lens holder - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an lens holder for use in an optical apparatus such as, in particular, relates to a lens holder structure suitable for producing in injection molding how the synthetic resin.

[0002]

2. Description of the Related Art A typical example of a known lens holder conventionally used in an optical apparatus such as a camera will be described with reference to FIG.

As shown in FIG. 1, in a conventional lens holder 1, a plurality of lenses L1 and L2 are arranged at predetermined intervals in an optical axis direction, and are arranged close to each other. Between a pair of lenses L1 and L2,
An annular projection 2 is formed on the inner peripheral surface of the lens holder 1 so as to engage with the outer peripheral edge of the opposing end surfaces of the two lenses, and the front end surface 2a of the annular projection 2 is provided with the front lens L1. The outer peripheral edge of the rear end face abuts, and the outer peripheral edge of the front end face of the rear lens L2 abuts on the rear end face 2b of the annular projection 2.

In the known lens holder having the above-described structure, since the annular projection 2 is provided on the inner peripheral surface, when the lens holder 1 is manufactured by, for example, injection molding of a synthetic resin, a molding core ( If the piece is designed as an integral type, the annular projection 2 will be an obstacle during die cutting, and the piece cannot be pulled to the left in FIG. Therefore, conventionally, when the lens holder 1 is manufactured by injection molding,
As shown in FIG. 9, the annular projection 2 and a piece 3 for molding a portion forward of the projection 2 and a piece 4 for molding a portion behind the projection 2 are being formed. The child was split.

[0005]

When the above-mentioned lens holder having the conventional structure is manufactured by injection molding, it is necessary to divide the frame into two as described above. There was a risk that the center and the axis of the part formed by the piece 4 would be shifted. Therefore, in an optical system designed to have high sensitivity to eccentricity, if the lens holder has the above-described misalignment (eccentricity) of the axis, an optical defect such that one-sided blur occurs on the image forming surface is caused. Become.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to provide an improved lens holder which can be manufactured by a processing method such as injection molding without causing the above-described misalignment of the axis. The objects of the present invention will be described below for each claim.

[0007] The invention of claim 1 is an injection molding of a synthetic resin.
In a lens holder having at least one set of a first lens and a second lens which are manufactured and arranged at a predetermined interval from each other in the optical axis direction, an optical axis is set to the first lens arranged forward in the optical axis direction. The second lens disposed rearward in the direction is the same diameter as the first lens or smaller in diameter than the first lens, and the outer peripheral portion of the rear end surface of the first lens and the front end surface of the second lens A plurality of protrusions that engage with the outer peripheral edge are formed at predetermined intervals along the circumferential direction on the inner peripheral surface of the lens holder, and the first lens that fits on the outer peripheral surface of the first lens A fitting portion is formed at substantially the same central angle position as the protrusion when viewed from the axial direction, and a second lens fitting portion that fits on the outer peripheral surface of the second lens is formed between the protrusions. It is an object of the present invention to provide a lens holder characterized in that:

According to a second aspect of the present invention, there is provided an injection molding of a synthetic resin.
In a lens holder having at least one set of a first lens and a second lens which are manufactured and arranged at a predetermined interval from each other in the optical axis direction, an optical axis is set to the first lens arranged forward in the optical axis direction. The second lens disposed rearward in the direction is the same diameter as the first lens or smaller in diameter than the first lens, and the outer peripheral portion of the rear end surface of the first lens and the front end surface of the second lens A plurality of protrusions that engage with the outer peripheral edge are formed at predetermined intervals along the circumferential direction on the inner peripheral surface of the lens holder, and the outer peripheral surface of the first lens and the outer periphery of the second lens The lens fitting part that fits on the surface is
It is an object of the present invention to provide a lens holder characterized by being integrally formed along with each other and formed at a position between the projections when viewed from the axial direction .

According to a third aspect of the present invention, in the lens holder having the configuration of the first or second aspect, at least one of the first lens fitting portion and the second lens fitting portion includes the lens in a radial direction. It is another object of the present invention to provide a lens holder characterized by being provided with a fine adjustment means in the radial direction having a function of finely moving the lens and fixing the lens so that it cannot be moved in the radial direction.

According to a fourth aspect of the present invention, in the lens holder having the configuration of the third aspect, the radial fine-adjustment means includes a radial direction penetrating the first lens fitting portion and the second lens fitting portion. And a screw which is screwed into the screw hole to move the lens in the radial direction.

According to a fifth aspect of the present invention, in the lens holder having the structure of the first or second aspect, the first lens and the second lens are provided in the first lens fitting portion and the second lens fitting portion. An object of the present invention is to provide a lens holder characterized in that caulking pieces for caulking are provided continuously.

According to a sixth aspect of the present invention, in the lens holder having the structure of the fifth aspect, the caulking piece is cut out at several places, and the second lens is slightly moved in the radial direction by a tool through the cutout. It is intended to provide a lens holder characterized by the following.

[0013]

Means for Solving the Problems and Action To solve the above problems, the invention of claim 1 is made by injection molding of synthetic resin.
In forming by a lens holder that incorporates at least one pair of first lens and a second lens disposed at predetermined intervals in the optical axis direction from each other, the optical axis with respect to said first lens disposed forward in the optical axis direction The second lens disposed rearward in the direction is the same diameter as the first lens or smaller in diameter than the first lens, and the outer peripheral portion of the rear end surface of the first lens and the front end surface of the second lens A plurality of protrusions that engage with the outer peripheral edge are formed at predetermined intervals along the circumferential direction on the inner peripheral surface of the lens holder, and the first lens that fits on the outer peripheral surface of the first lens A fitting portion is formed at substantially the same central angle position as the protrusion when viewed from the axial direction, and a second lens fitting portion that fits on the outer peripheral surface of the second lens is formed between the protrusions. A lens holder is provided.

According to a second aspect of the present invention, at least one set of a first lens and a second lens manufactured by injection molding of a synthetic resin and arranged at predetermined intervals in the optical axis direction is provided. In the built-in lens holder, the second lens disposed rearward in the optical axis direction with respect to the first lens disposed forward in the optical axis direction has the same diameter as the first lens or a smaller diameter than the first lens. A plurality of projections engaging with an outer peripheral edge of a rear end surface of the first lens and an outer peripheral edge of a front end surface of the second lens are formed on the inner peripheral surface of the lens holder along a circumferential direction. Are formed at intervals, and an outer peripheral surface of the first lens and a lens fitting portion that fits on the outer peripheral surface of the second lens are integrally formed along the optical axis direction, and
A lens holder is provided which is formed at a position between the projections when viewed from the axial direction .

According to a third aspect of the present invention, there is provided a lens holder having at least one of the first lens fitting portion and the second lens fitting portion in the lens holder having the structure of the first or second aspect. Provides a lens holder provided with a radial fine adjustment means having a function of minutely moving the lens in the radial direction and fixing the lens so that the lens cannot be moved in the radial direction.

According to a fourth aspect of the present invention, there is provided a lens holder having the configuration according to the third aspect, wherein the fine adjustment means in the radial direction comprises the first lens fitting portion and the second lens fitting portion. And a screw which is screwed into the screw hole to move the lens in the radial direction, the lens holder being provided.

According to a fifth aspect of the present invention, there is provided a lens holder having the structure of the first or second aspect, wherein the first lens fitting portion and the second lens fitting portion have the first lens fitting portion. Provided is a lens holder, wherein a swaging piece for swaging the lens and the second lens is formed.

According to a sixth aspect of the present invention, there is provided a lens holder having the structure of the fifth aspect, wherein:
A lens holder characterized in that the caulking piece is cut out at several places, and the second lens is slightly moved in the radial direction by a tool through the cutout.

[0019]

【Example】

<Embodiment 1> A first embodiment of the present invention will be described below with reference to FIGS.

In FIG. 2, L1 to L5 are lenses, 11
Denotes a lens holder of the present embodiment. Lens L1 and lens L2 (lens L5
As shown in FIG. 1, three projections 12 are fixedly arranged at predetermined intervals in the optical axis direction at a predetermined interval along the circumferential direction. Corner 120
Degrees each, each projecting portion 1 2 of the spacing 60 degrees) is formed, the front side of the end face 12a of the projecting portion 12 is engaged with the rear end surface peripheral portion of the front side lens L1 lens L1 Is positioned and fixed in the optical axis direction, and the rear end face 1 of the projection 12 is
2b is engaged with the outer peripheral edge of the front end face of the rear lens L2 to position and fix the lens L2 in the optical axis direction.

In addition, as shown in FIG. 1, three frontal parts are provided at the same central angle position along the inner periphery of the holder at every 120 degree central angle as shown in FIG. A lens L1 fitting portion 13 is formed, and a caulking piece 14 is provided at a position slightly shifted from the center angle position with respect to the projecting portion 12 so as to protrude forward from the fitting portion 13. After the lens L1 comes into contact with the front end surface 12a of the projection 12 and is fitted into the fitting portion 13, the caulking piece 14 is bent to fix the outer peripheral edge of the lens L1 with the caulking piece 14. As a result, the lens L1 is fixed.

On the other hand, at the position where the lens L2 is located behind the protrusion 12, three lens L2 fitting portions 15 fitted to the outer peripheral surface of the lens L2 are provided at a central angle of 120 degrees as shown in FIG. The lens L2 fitting portion 15 is located at a position shifted from the center angle position with respect to the protrusion 12 as shown in FIG. It is arranged in the place. Then, as shown in FIG.
Between the front lens L1 fitting portion 13 and the rear lens
L2 fitting portion 15 has the same circumference around lens center L.
Is formed on. At that time, as shown in FIG.
Lens L1 fitting portion 13 and lens L2 fitting portion 15 are axially
Are positioned so that they do not overlap with each other.
The lens L2 fitting portion 15 is disposed between the protrusions 12 as described above.
In the injection molding of the lens holder,
The lens L1 fitting part 13 and the lens L2 fitting part 15 are the same.
It is possible to mold using a molding core (piece),
The positional accuracy of the lens L1 and the lens L2 with respect to the optical axis is better.
Up. Further, a crimping piece 16 is provided to protrude rearward from the lens L2 fitting portion 15. The lens L2 abuts on the rear end surface 12b of the projection 12 to position the lens in the optical axis direction, and after the outer peripheral surface of the lens is fitted to the fitting portion 15, the caulking piece 16 is bent and the lens L2 is bent. By caulking the outer edge of the rear end face of L5, the lenses L2 and L5
Is fixed.

As described above, in the lens holder of the present embodiment, the projections 12 serving as the axial receiving portion of the front lens and the axial receiving portion of the rear lens have the same circumference as the conventional lens holder. The projections 12 are not separated from each other, but are separated from each other. Therefore, when the lens holder is manufactured by injection molding, the lens L1 is fitted.
Even if the molding core (piece) for molding the part 13 and the lens L2 fitting part 15 is designed as an integral type, the piece can be pulled out to the left in FIG. In addition, there is no danger that the axis of the front part of the lens holder and the axis of the rear part of the lens holder are misaligned, and as a result,
According to this embodiment, it is possible to provide a lens holder suitable for the configuration of an optical system including lenses having high eccentric sensitivity.

<Embodiment 2> A second embodiment of the present invention will be described with reference to FIGS. Since the lens holder of this embodiment is a modification of the lens holder of the first embodiment, the same components as those of the lens holder of the first embodiment in FIGS. 3 and 4 are the same as those in FIGS. Reference numerals are used, and description of these same components will be omitted.

[0025] In the lens holder 11 of this embodiment differs from the lens holder 11 of the first embodiment, the lens L1 fitting portion 13 and the lens L2 fitting portion 15 is light
That is , the lens fitting portion 23 is formed integrally at the same position along the axial direction . Therefore, as in the case of the lens holder described in the first embodiment, when the lens holder is manufactured by injection molding, even if the molding core (piece) is designed as an integral type, it is pulled out to the left in FIG. Therefore, there is no danger that the axis of the front part and the axis of the rear part of the lens holder are different from each other as in the conventional lens holder. As a result, according to the present embodiment,
A lens holder suitable for the configuration of an optical system including lenses having high eccentric sensitivity is provided.

<Embodiment 3> A third embodiment of the present invention will be described with reference to FIGS. Since the lens holder of the present embodiment is obtained by further adding the following structural parts to the lens holder of the first embodiment or the second embodiment, for example, FIGS. 1 and 2 for the same components as the lens holder.
The same reference numerals are used, and the description of these same components will be omitted.

The lens holder 11 of this embodiment differs from the lens holder 11 of the first embodiment in that three screw holes 18 in the radial direction as fine radial adjustment means penetrate the lens L2 fitting portion 15. The lens L2 (and L5) can be finely adjusted in the radial direction by screwing a screw 17 into the screw hole 18 from outside the lens holder 11. Therefore, when the axes of the lenses L2 and L5 are slightly eccentric with respect to the axis of the lens L1, the screw centers of the three screws 17 are adjusted to adjust the axes of the lenses L2 and L5 to the lens L1. It is possible to exactly match the axis. In addition,
When the lens holder 11 is made of a synthetic resin material,
As a material, for example, F obtained by mixing carbon fiber with polyester
Assuming that RP is used, since the lens holder is very strong but can be slightly elastically deformed, the amount of screwing of the screw 17 causes the lens L2 fitting portion 15 to be slightly elastic in the radial direction. By deforming, the lenses L2 and L5 can be moved in the radial direction.

As described above, the lens holder of the present embodiment has a higher function of matching the optical axes of the front and rear lenses than the lens holder of the first embodiment, and thus includes a plurality of lenses having high eccentric sensitivity. It is suitable as a lens holder for an optical system, and can be manufactured by injection molding using an integral molding piece as in the lens holder of the first embodiment.

<Embodiment 4> A fourth embodiment of the present invention will be described with reference to FIG. Since the lens holder of the present embodiment is a modification of the lens holder of the first embodiment, in FIG. 7, the same components as those of the lens holder of the first embodiment are denoted by the same reference numerals as in FIGS. 1 and 2. The description of these same components will be omitted.

The difference between the lens holder 11 of the present embodiment and the lens holder 11 of the first embodiment is that the swaging piece 16 is cut out at several places on the circumference, and as a result, it has a plurality of notches 19. That is. Therefore, the fitting portion of the lenses L2 and L5 can be slightly moved in the radial direction by a well-known tool 20, such as a micrometer, through any one of the plurality of notches 19. That is, the lens L1 and the lenses L2 and L5
Eccentricity adjustment is possible. After the adjustment, the lenses L2 and L5 are fixed to the lens holder 11 by caulking the caulking pieces 16 while holding the lenses L2 and L5 with the tool 20, or applying an adhesive through the remaining notch portions 19.

As described above, the lens holder of the present embodiment has a higher function of matching the optical axes of the front and rear lenses than the lens holder of the first embodiment, and thus includes a plurality of lenses having high eccentric sensitivity. It is suitable as a lens holder for an optical system, and can be manufactured by injection molding using an integral molding piece as in the lens holder of the first embodiment.

<Correspondence between Invention and Embodiment> The “projection” described in claim 1 or 2 corresponds to the projection 12 in the embodiment, and the “first lens fitting” described in claims 1 to 5. The “joint portion” corresponds to the “lens L1 fitting portion 13” in the embodiment, and the “second lens fitting portion” corresponds to the “lens L2 fitting portion 15 ” in the embodiment. The "radial fine adjustment means" in claims 3 to 5 corresponds to the concept represented by "screw hole" and "screw" in the embodiment.

[0033]

According to the first aspect of the present invention, the second lens
The second lens fitting part that fits on the outer peripheral surface of the
The first lens that fits the outer peripheral surface of the first lens
Non-split mold for forming lens fitting part
(Piece) to form the second lens fitting portion.
The mold can be pulled out to the first lens side. Therefore, it is possible to provide a lens holder that does not cause a discrepancy between the axis of the front lens and the axis of the rear lens. Also,
According to the invention according to claim 2, the outer peripheral surface of the first lens and
The lens fitting portion fitted to the outer peripheral surface of the second lens is
Are formed integrally along the direction, and the projection is viewed from the axial direction.
Is formed at a position between
Fitting for first and second lens using mold
Mold, and this mold can be pulled out to the first lens side.
You. Therefore, the axis of the front lens and the axis of the rear lens
A lens holder that will not cause a discrepancy between
Can be provided.

According to the third to sixth aspects of the present invention, since the axis of the rear lens can be finely adjusted, it is suitable for a high-precision optical system including a pair of lenses having high sensitivity to eccentricity. A lens holder can be provided.

According to the fifth aspect of the present invention, since the crimping pieces for crimping the lens are formed at the fitting portion fitted to the front lens and the fitting portion fitted to the rear lens, the lens is firmly fixed. Can be fixed.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a lens holder according to a first embodiment of the present invention.

FIG. 2 is a longitudinal sectional view of the lens holder of FIG.

FIG. 3 is a longitudinal sectional view of a lens holder according to a second embodiment of the present invention.

FIG. 4 is a cross-sectional view of a lens holder according to a second embodiment.

FIG. 5 is a longitudinal sectional view of a lens holder according to a third embodiment of the present invention.

FIG. 6 is a cross-sectional view of a lens holder according to a third embodiment.

FIG. 7 is a cross-sectional view of a lens holder according to a fourth embodiment of the present invention.

FIG. 8 is a longitudinal sectional view of a conventional lens holder.

FIG. 9 is a diagram for explaining a method of dividing a molding die (piece) and a die-cutting direction when the lens holder of FIG. 8 is manufactured by an injection molding method.

[Explanation of symbols]

Reference numerals 1, 11: lens holder 2, annular projection 3, 4: piece (core for molding) 12, projection 13, lens L1 fitting portion 14, 16, caulking piece 15, lens L2 fitting portion 17, screw 18 ... Screw hole 19 ... Notch 20 ... Adjustment tool

──────────────────────────────────────────────────続 き Continuation of front page (56) References JP-A-61-84615 (JP, A) JP-A-4-257808 (JP, A) JP-A-5-113529 (JP, A) JP-A-4- 166905 (JP, A) JP-A-2-46413 (JP, A) JP-A-4-136804 (JP, A) JP-A-2-203310 (JP, A) JP-A-4-20008 (JP, U) Japanese Utility Model Showa 61-42505 (JP, U) Japanese Utility Model Hei 3-45505 (JP, U) Japanese Utility Model Showa 55-147008 (JP, U) Japanese Utility Model Showa 60-28311 (JP, U) Japanese Utility Model Utility 4-124213 (JP, U) (58) Field surveyed (Int. Cl. ⁷ , DB name) G02B ⁷ /02-7/105

Claims (6)

(57) [Claims] 1. A lens holder which is manufactured by injection molding of a synthetic resin and includes at least one set of a first lens and a second lens which are arranged at a predetermined distance from each other in an optical axis direction, and are arranged in front of the optical axis direction. The second lens disposed rearward in the optical axis direction with respect to the first lens thus formed has the same diameter as the first lens or a smaller diameter than the first lens, and is located outside the rear end surface of the first lens. A plurality of protrusions that engage with the peripheral edge and the outer peripheral edge of the front end surface of the second lens are formed at predetermined intervals along the circumferential direction on the inner peripheral surface of the lens holder; the first lens fitting portion axis which is fitted on the outer peripheral surface of the lens
Formed at substantially the same central angle position as the protrusion when viewed from the direction ,
A lens holder, wherein a second lens fitting portion fitted to the outer peripheral surface of the second lens is formed between the protrusions. 2. A lens holder having at least one set of a first lens and a second lens, which are manufactured by injection molding of a synthetic resin and are arranged at a predetermined distance from each other in the optical axis direction, are arranged forward in the optical axis direction. The second lens disposed rearward in the optical axis direction with respect to the first lens thus formed has the same diameter as the first lens or a smaller diameter than the first lens, and is located outside the rear end surface of the first lens. A plurality of protrusions that engage with the peripheral edge and the outer peripheral edge of the front end surface of the second lens are formed at predetermined intervals along the circumferential direction on the inner peripheral surface of the lens holder; An outer peripheral surface of the lens and a lens fitting portion fitted to the outer peripheral surface of the second lens are integrally formed along the optical axis direction,
And a lens holder formed at a position between the protrusions when viewed from the axial direction . 3. At least one of the first lens fitting portion and the second lens fitting portion has a function of slightly moving the lens in the radial direction and fixing the lens so that the lens cannot be moved in the radial direction. 3. A lens holder according to claim 1, further comprising a radial fine adjustment means. 4. The radial fine adjustment means includes: a radial screw hole penetrating the first lens fitting portion and the second lens fitting portion; and a screw screwed into the screw hole. 4. A lens holder according to claim 3, further comprising: a screw for moving in a radial direction. 5. A caulking piece for caulking the first lens and the second lens is connected to the first lens fitting portion and the second lens fitting portion. The lens holder according to claim 1 or claim 2. 6. The lens holder according to claim 5, wherein the caulking piece is cut out at several places, and the second lens is slightly moved in a radial direction by a tool through the cutout portion.