JP2021189262A - Lens unit - Google Patents

Abstract

To provide a lens unit that can prevent dust, for example, from entering the inside of a housing.SOLUTION: A lens unit 21 includes: a lens 3; a lens holder 4 for holding the lens 3; a housing 5 for containing the lens holder 4; and a cover 9 attached to the housing 5. The lens holder 4 has a boss 8 protruding to the outside. The housing 5 includes: an opening part 12 for integrating the lens holder 4 into the inside of the housing 5 from the outside of the housing; a slit 6 through which the boss 8 passes when the lens holder 4 integrated from the opening part 12 is moved to a predetermined position in the housing 5; and a boss container (a long hole 7) for containing the boss 8 when the lens holder 4 has been moved to the predetermined position. The cover 9 has a covering part (a protruding part 11) covering the entire area of the slit 6 located between the opening part 12 and the boss container (the long hole 7).SELECTED DRAWING: Figure 1

Description

The present invention relates to a lens unit.

As a lens unit used in an electronic viewfinder or the like mounted on a camera, a lens unit in which a lens holder for holding a lens is incorporated in a housing has been widely used. (See, for example, Patent Document 1)

FIG. 3 is an exploded perspective view of the conventional lens unit, and FIG. 4 is a partially enlarged perspective view of the conventional lens unit. The conventional lens unit 1 includes a lens 3, a lens holder 4, a housing 5, a side cover 9, a diopter adjustment dial 10, and a top cover 13. The lens 3 and the lens holder 4 are incorporated and housed inside the housing 5 through an opening 12 provided on one side surface of the housing 5. The side cover 9 is detachably attached so as to cover the opening 12 of the housing 5 after the lens 3 and the lens holder 4 are incorporated inside the housing 5. The diopter adjustment dial 10 is attached to a rotating shaft provided on one side surface of the housing 5. The upper surface cover 13 is a flat plate-shaped transparent cover, and is attached so as to cover the upper opening of the housing 5. The lower portion of the housing 5 is attached to the outer peripheral portion of the reflective liquid crystal display device 2. The image emitted from the reflective liquid crystal display device 2 is incident on the inside from the lower part of the housing 5, passes through the lens 3 and the upper surface cover 13, and is emitted to the outside.

A columnar boss 8 projecting outward is provided on one side surface of the lens holder 4. On one side surface of the housing 5 facing the boss 8, a long hole 7 for accommodating the boss 8 and a slit (through groove) 6 for passing the boss 8 from the opening 12 to the long hole 7 are formed. When the lens holder 4 is incorporated from the opening 12 of the housing 5, the boss 8 of the lens holder 4 is moved to the elongated hole 7 through the slit 6 of the housing 5. The tip of the boss 8 housed in the elongated hole 7 is engaged with a cam structure provided on the diopter adjustment dial 10. When the diopter adjustment dial 10 is rotated in a predetermined direction, the boss 8 moves along the elongated hole 7 via the cam structure, and the lens holder 4 moves in the optical axis direction of the lens 3 with this movement. As a result, the diopter adjustment in the lens unit 1 is performed.

Japanese Unexamined Patent Publication No. 2011-85872

In the conventional lens unit, as shown in FIG. 4, since the slit 6 located between the outer peripheral portion of the side cover 9 and the elongated hole 7 of the housing 5 is exposed to the outside, the inside of the housing 5 is exposed from there. There was a risk of dust invading the cover.

An object of the present invention is to provide a lens unit capable of preventing dust and the like from entering the inside of a housing.

The lens holder includes a lens, a lens holder for holding the lens, a housing for accommodating the lens holder, and a cover attached to the housing, and the lens holder has a boss protruding outward and the housing. The body has an opening for incorporating the lens holder from the outside to the inside of the housing, and the boss when moving the lens holder incorporated from the opening to a predetermined position inside the housing. It has a slit through which the lens holder passes and a boss accommodating portion for accommodating the boss when the lens holder moves to the predetermined position, and the cover is located between the opening and the boss accommodating portion. The lens unit has a covering portion that covers the entire slit.

The covering portion may be a lens unit having a protruding portion extending along the outer shape of the slit.

The protruding portion may be a lens unit that functions as a guide that regulates the movement range of the boss housed in the boss housing part.

The boss accommodating portion is a long hole, and the boss may be a lens unit that can move along the long hole.

A dial for moving the boss along the elongated hole by rotating in a predetermined direction is provided, and the dial is formed on the outer surface of the dial as an index indicating a rotation position when the boss is rotated in the predetermined direction. It may be a lens unit having a groove.

According to the present invention, it is possible to provide a lens unit capable of preventing dust and the like from entering the inside of a housing.

An exploded perspective view of the lens unit according to the embodiment of the present invention. Partially enlarged perspective view of the lens unit according to the embodiment of the present invention. An exploded perspective view of a conventional lens unit Partially enlarged perspective view of the conventional lens unit

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is an exploded perspective view of the lens unit according to the embodiment of the present invention, and FIG. 2 is a partially enlarged perspective view of the lens unit according to the embodiment of the present invention.

The lens unit 21 in the present embodiment includes a lens 3, a lens holder 4, a housing 5, a side cover 9, a diopter adjustment dial 10, and a top cover 13. The lens 3 and the lens holder 4 are incorporated and housed inside the housing 5 through an opening 12 provided on one side surface of the housing 5. The side cover 9 is detachably attached so as to cover the opening 12 of the housing 5 after the lens 3 and the lens holder 4 are incorporated inside the housing 5. The diopter adjustment dial 10 is attached to a rotating shaft provided on one side surface of the housing 5. The upper surface cover 13 is a flat plate-shaped transparent cover, and is attached so as to cover the upper opening of the housing 5. The lower portion of the housing 5 is attached to the outer peripheral portion of the reflective liquid crystal display device 2. The image emitted from the reflective liquid crystal display device 2 is incident on the inside from the lower part of the housing 5, passes through the lens 3 and the upper surface cover 13, and is emitted to the outside.

A columnar boss 8 projecting outward is provided on one side surface of the lens holder 4. On one side surface of the housing 5 facing the boss 8, a long hole 7 for accommodating the boss 8 and a slit (through groove) 6 for passing the boss 8 from the opening 12 to the long hole 7 are formed. When the lens holder 4 is incorporated from the opening 12 of the housing 5, the boss 8 of the lens holder 4 is moved to the elongated hole 7 through the slit 6 of the housing 5. The tip of the boss 8 housed in the elongated hole 7 is engaged with a cam structure provided on the diopter adjustment dial 10. When the diopter adjustment dial 10 is rotated in a predetermined direction, the boss 8 moves along the elongated hole 7 via the cam structure, and the lens holder 4 moves in the optical axis direction of the lens 3 with this movement. As a result, the diopter adjustment in the lens unit 21 is performed. These configurations are the same as those of the conventional lens unit 1.

The reflective liquid crystal display device 2 has, for example, the following configuration (not shown). A reflective liquid crystal display panel is arranged on the same surface of the circuit board with the image display surface facing upward, and a light source is arranged so as to be adjacent to the reflective liquid crystal display panel with the light emitting surface facing upward. A housing is arranged above and around the reflective liquid crystal display panel so as to cover the reflective liquid crystal display panel. The inner surface of the housing is provided with a reflective surface for guiding the light emitted from the light source toward the plate-shaped polarizing beam splitter arranged above the reflective liquid crystal display panel. Further, a diffuser plate for diffusing light and a polarizing plate for transmitting only one type of linearly polarized light are arranged on the optical path leading from the reflecting surface to the polarizing beam splitter.

Inside the lens holder 4, as the lens 3, the first lens, the second lens, and the third lens are arranged along the optical axis in order from the top toward the reflective liquid crystal display device 2. The first lens, the second lens, and the third lens are composed of, for example, a biconvex lens, a downward convex lens, and a downward convex lens, respectively. Each lens is engaged with each other at its outer peripheral portion and integrated, and in that state, it is positioned and fixed inside the lens holder 4 by an arbitrary fixing method.

The slit 6 of the housing 5 is formed so as to be connected to the opening 12 of the housing 5, extends linearly from the opening 12 toward the elongated hole 7, and is perpendicular to the central portion of the linear elongated hole 7. It is connected so as to intersect with. That is, a T-shaped opening is formed on one side surface of the housing 5 by a linear elongated hole 7 that intersects the linear slit 6 perpendicularly.

The slit 6 of the housing 5 is necessary when moving the boss 8 of the lens holder 4 to the long hole 7 of the housing 5, but it is not necessary after the boss 8 is housed in the long hole 7. Therefore, in order to prevent dust and the like from entering the inside of the housing 5 from the slit 6, a protruding portion 11 covering the tip of the slit 6 is provided on the outer peripheral portion of the side cover 9. The protrusion 11 is integrally formed with the side cover 9, and extends along the outer shape of the slit 6 to the elongated hole 7. Since the tip of the slit 6 is covered by the protruding portion 11, the entire slit 6 is completely covered by a part (covered portion) of the side cover 9, so that foreign matter such as dust is prevented from entering through the slit 6. be able to. When the side cover 9 is made of a light-shielding material such as black resin, it is possible to prevent stray light from entering through the slit 6. Further, since the tip of the protruding portion 11 is arranged along the inner circumference of the elongated hole 7, it also functions as a guide for restricting the moving range of the boss 8 housed in the elongated hole 7. As a result, the boss 8 smoothly moves inside the elongated hole 7, so that the diopter can be smoothly adjusted. Further, since the protruding portion 11 is integrally formed with the existing side cover 9, the number of parts can be reduced as compared with the case where the protruding portion 11 is provided as a separate member.

The thickness of the protruding portion 11 is the same as the thickness of the outer peripheral portion of the side cover 9, but may be larger than the thickness of the outer peripheral portion of the side cover 9. In this case, a part of the relatively thick protruding portion 11 may be engaged with the inside of the slit 6. By doing so, not only can the above-mentioned effect of the protruding portion 11 be enhanced, but also, for example, the side cover 9 can be easily attached to the housing 5 while the protruding portion 11 is aligned with the inside of the slit 6.

A plurality of grooves 14 are formed on the outer surface of the diopter adjustment dial 10 as an index indicating the rotation position of the diopter adjustment dial 10. The plurality of grooves 14 are formed at regular intervals so as to extend radially from the center of rotation of the diopter adjustment dial 10 toward the opposite side. Each of the plurality of grooves 14 corresponds to a predetermined diopter position, and the diopter adjustment can be easily performed by rotating the diopter adjustment dial 10 to align each groove 14 with a predetermined position. can.

The present invention is not limited to the above embodiments. For example, the protruding portion 11 is not limited to having a shape along the outer shape of the slit 6, and may have a shape other than that. Further, the protruding portion 11 may be formed not on the side cover 9 but on another cover (for example, the upper surface cover 13) attached to the housing 5. However, it is advantageous that the protruding portion 11 is formed on the side surface cover 9 adjacent to the slit 6 because the configuration can be simplified. Further, the lens holder 4 may be integrally formed (also used) with the lens 3 instead of being a separate member. In this case, the boss 8 is formed directly on the lens 3.

1 Lens unit 2 Reflective liquid crystal display 3 Lens 4 Lens holder 5 Housing 6 Slit 7 Long hole 8 Boss 9 Side cover 10 Diopter adjustment dial 11 Projection 12 Opening 13 Top cover 14 Groove 21 Lens unit

Claims (5)

With the lens
A lens holder that holds the lens and
A housing for accommodating the lens holder and
With a cover that can be attached to the housing,
The lens holder has a boss that protrudes outward.
The housing has an opening for incorporating the lens holder from the outside to the inside of the housing, and the lens holder incorporated from the opening when the lens holder is moved to a predetermined position inside the housing. It has a slit through which the boss passes, and a boss accommodating portion for accommodating the boss when the lens holder moves to the predetermined position.
The cover has a covering that covers the entire slit located between the opening and the boss accommodating portion.
A lens unit characterized by that. The lens unit according to claim 1, wherein the covering portion has a protruding portion extending along the outer shape of the slit. The lens unit according to claim 2, wherein the protruding portion functions as a guide for regulating a moving range of the boss housed in the boss housing part. The lens unit according to any one of claims 1 to 3, wherein the boss accommodating portion has a long hole, and the boss can move along the long hole. A dial for moving the boss along the elongated hole by rotating in a predetermined direction is provided, and the dial is formed on the outer surface of the dial as an index indicating a rotation position when the boss is rotated in the predetermined direction. The lens unit according to claim 4, wherein the lens unit has a groove.

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