JP2018109741A - Diaphragm adjustable lens device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lens device enabling multistage diaphragm adjustment.SOLUTION: A diaphragm adjustable lens device includes a plate, a first diaphragm adjustment blade 31, a second diaphragm adjustment blade 32, and a first driver 35 and a second driver 36 connected to the first diaphragm adjustment blade 31 and the second diaphragm adjustment blade 32. For the plate, a diaphragm opening diameter is defined. The first diaphragm adjustment blade 31 and the second diaphragm adjustment blade 32 are displaced so that when the first driver 35 and the second driver 36 are at a first position, light is perfectly transmitted through the diaphragm opening part, when they are at second position, light is transmitted through a part of the diaphragm opening part of the plate.SELECTED DRAWING: Figure 1

Description

The present invention relates to a lens device, and more particularly to a lens device capable of adjusting an aperture.

Conventionally, a lens apparatus capable of adjusting an aperture is realized only in a large electronic device such as a digital camera or a digital video camera. Currently, smartphones or tablets can improve the shooting ability using a plug-in lens and can adjust the aperture using the aperture adjustment function of the plug-in lens, but the aperture of a general mobile terminal is fixed. Considering the demand for the thinness of the portable terminal, it is a very difficult problem in this technical field to arrange the aperture adjustment structure in the main body of the airframe. However, realizing the function of adjusting the aperture with the mobile terminal itself is a very practical function because the depth of field can be changed and the quality of the photo can be improved. Therefore, realizing a function that can be adjusted by the mobile terminal itself is one of the problems in this field.

The present invention has been made in view of the problem that the aperture of a portable terminal in the prior art is fixed, and an object of the present invention is to provide a lens device capable of adjusting the aperture of the lens and to realize the aperture adjustment of the lens.

In order to achieve the above object, the present invention provides a lens apparatus capable of adjusting the aperture. The lens device includes an optical system frame, a lens system disposed on the optical system frame, and is fixedly provided on the optical system frame or formed by extending from the optical system frame, and the aperture diameter of the diaphragm is defined. And when connected to the plate and in the first position, the light is completely transmitted through the aperture opening of the plate, and when in the second position, the light passes through the aperture opening of the plate. A diaphragm adjusting blade provided so as to partially pass through, and a driver connected to the diaphragm adjusting blade for displacing the diaphragm adjusting blade.

In an embodiment of the present invention, a hole having an aperture diameter is provided in the aperture adjustment blade, and the aperture adjustment blade is driven by a driver so that the aperture is displaced to a position overlapping the original aperture opening on the optical axis. Thus, the lens aperture can be adjusted. Here, for example, a plurality of classes of aperture adjustment blades and drivers are installed so that a plurality of classes of aperture adjustment can be realized in a camera lens in a mobile terminal, and the depth of field can be adjusted by selecting an aperture during shooting. ing. Further, in the embodiment of the present invention, since one diaphragm adjusting blade corresponds to one driver, even if a failure occurs, it can be repaired or replaced conveniently.

By implementing the lens device capable of adjusting the aperture according to the present invention, the following beneficial effects can be obtained. Specifically, for example, it is possible to realize the adjustment of a plurality of classes of apertures in the photographing camera lens, and it is possible to realize the adjustment of the depth of field by selecting the diaphragm when photographing. In the embodiment of the present invention, since one diaphragm adjusting blade corresponds to one driver, even if a failure occurs, it can be repaired or replaced conveniently.

FIG. 1 is an exploded schematic view of a lens apparatus capable of adjusting an aperture according to the first embodiment of the present invention. FIG. 2 is a schematic diagram when the first aperture adjustment blade and the second aperture adjustment blade are in the open position in the first embodiment of the present invention. FIG. 3 is a schematic view when the first aperture adjustment blade is in the open position and the second aperture adjustment blade is in the closed position in the first embodiment of the present invention. FIG. 4 is a schematic diagram when the first aperture adjustment blade is in the closed position and the second aperture adjustment blade is in the open position in the first embodiment of the present invention. FIG. 5 is an exploded schematic view of a lens apparatus capable of adjusting the diaphragm according to the second embodiment of the present invention. FIG. 6 is a schematic view when the first aperture adjustment blade is in the open position in the second embodiment of the present invention. FIG. 7 is a schematic view when the first aperture adjustment blade is in the closed position in the first embodiment of the present invention.

In order that the objects, technical means, and effects of the present invention can be understood more clearly and clearly, the present invention will be described in more detail with reference to the accompanying drawings. Certain embodiments described herein are merely used to describe the present invention, and the term “embodiments” used in the specification of the present invention may refer to actual examples, examples, or It is used as a verification example and does not limit the present invention. Also, unless otherwise specified or understood in context from the singular, the term “one” used in the specification of the invention and the appended claims generally refers to “ It should be understood to refer to “one or more”. In the accompanying drawings, elements having similar structures or functions or identical elements are denoted by the same reference numerals.

The present invention provides a lens device capable of adjusting an aperture, which can be applied to at least a mobile phone, a smartphone, a tablet personal computer, and a wearable device having an imaging function. According to the present invention, by giving a function that can adjust the size of the aperture to the mobile terminal, the user can select the aperture and adjust the depth of field when the user uses the mobile terminal to take an image.

FIG. 1 is an exploded view of a lens apparatus capable of adjusting an aperture according to the first embodiment of the present invention. The lens apparatus according to the first embodiment of the present invention can be arranged in an electronic device. The applied electronic device may be a device including a photographing lens, such as a mobile phone, a smartphone, a tablet personal computer, and a portable game machine. Moreover, the apparatus provided with imaging lenses, such as a photography camera and a video camera, may be sufficient.

As shown in FIG. 1, the lens apparatus according to the first embodiment of the present invention includes a base 22, a driver base 24, and a lens base 26. The lens apparatus further includes a first aperture adjustment blade 31 and a first base. 2 aperture adjustment blades 32, a cover board 33, a bottom plate 34, a first driver 35 and a second driver 36, a lens system 37, and an image recording device 38. As shown in the embodiment of FIG. 1, the first aperture adjustment blade 31, the second aperture adjustment blade 32, the cover board 33, and the bottom plate 34 are attached on the base 22. The first driver 35 and the second driver 36 are fixed on the driver base 24, and the lens system 37 and the image recording device 38 are disposed on the lens base 26.

The configuration described above is merely an example. The separation between the base 22, the driver base 24, and the lens base 26 may not be clear. These may be considered as optical system frames. Alternatively, any two of them may be joined together. Alternatively, the overall size of the lens device can be reduced by integrally molding at least two or all of the base 22, the driver base 24, and the lens base 26 with the same material. For example, the driver base 24 and the lens base 26 may be integrally formed so as to be a single base.

Specifically, the bottom plate 34 is fixedly disposed on the base 22. The bottom plate 34 may be formed extending from the base 22 or may be a part of the base 22. The cover board 33 is disposed at a distance from the bottom plate 34 and is preferably fixed on the base plate 22. The cover board 33 can be fixed on the base 22 in various ways. For example, a support leg is provided on the cover board 33, a corresponding groove is provided on the base board 22, and the cover board 33 is provided on the base board 22 by engagement or fitting of the support leg and the groove.

A certain amount of distance is placed between the cover board 33 and the bottom plate 34 to form an accommodation space for accommodating the first aperture adjustment blade 31 and the second aperture adjustment blade 32. The first aperture adjustment blade 31 and the second aperture adjustment blade 32 change or adjust the aperture of the lens device. Further, as shown in FIG. 1, a first accommodation space 241 and a second accommodation space 242 for accommodating the first drive unit 35 and the second driver 36 are arranged in the drive base 24. . The first driver 35 drives the first aperture adjustment blade 31 to displace the first aperture adjustment blade 31, and the second driver 36 performs the second operation to displace the second aperture adjustment blade 32. By driving the aperture adjusting blade 32, the aperture of the lens device is changed or adjusted. Preferably, the first driver 35 and the second driver 36 are drive motors, and can be realized by a current control type electric motor. The first driver 35 and the second driver 36 may use a conventional electric motor configuration.

As shown in FIG. 1, the base 22 is provided with a first shaft 221, and the first aperture adjustment blade 31 is provided with a first shaft hole 311 at a position corresponding to the first shaft 221, and the bottom plate 34 and the cover board 33 are also provided with holes at corresponding positions, and the first shaft 221 has a corresponding hole in the bottom plate 34 and the cover board 33 and a first shaft hole in the first aperture adjustment blade. The bottom plate 34 and the cover board 33 are provided so as to penetrate therethrough so as not to prevent the first shaft 221 from passing through the first shaft hole 311 in the first aperture adjustment blade 31. Thus, by providing the first shaft 221 and the first shaft hole 311, the first aperture adjustment blade 31 can be rotated around the axis of the first shaft 221.

Correspondingly, the base 22 is provided with a second shaft 222, and the second aperture adjustment blade 32 has a second shaft hole 321 at a position corresponding to the axis of the second shaft 222, and the bottom plate 34. And the cover board 33 can also be provided with holes at corresponding positions. The second shaft 222 is provided so as to penetrate through the corresponding holes in the bottom plate 34 and the cover board 33 and the second shaft hole 321 in the second aperture adjustment blade 32, or the bottom shaft 34 and the cover board 33. Is provided so as not to hinder the second shaft 222 from passing through the second shaft hole 321 in the second aperture adjustment blade 32. Thus, by providing the second shaft 222 and the second shaft hole 321, the second aperture adjustment blade 32 can be rotated around the axis of the second shaft 222.

The first driver 35 includes a first rotating rod 351 that is moved in an arc shape by driving the first driver 35. An appropriate rolling mechanism is disposed between the first driver 35 and the first rotating rod 351 so that the first driver 35 moves the first rotating rod 351 in a circular or arcuate shape. The For example, the first rotating rod 351 is provided so as to protrude on a disk-shaped surface. The disk transfers the rotational force generated by the first driver 35 via a gear. A first rail hole 223 is provided on the base 22 so as to correspond to the arcuate path of the first rotating rod 351 of the first driver 35, and the first aperture adjustment blade 31 has a first attachment. The hole 312 is provided correspondingly, and the bottom plate 34 and the cover board 33 can also be provided with holes at corresponding positions, and the first rotating rod 351 of the first driver 35 is the first of the base 22. Rail holes 223, bottom plate 34 and cover board 33 corresponding holes and first urging hole 312 of first aperture adjustment blade 31 are provided so as to pass through the first urging hole 312. The rail holes 223 are shifted from each other. Of course, the bottom plate 34 and the cover board 33 are provided so as not to obstruct the first rotating rod 351. When the first rotating rod 351 is rotated by being driven by the first driver 35, the first rotating rod 351 moves from the first position to the second position in the first rail hole 223 of the base 22. At this time, the first rotary rod 351 urges the first diaphragm adjustment blade 31 in the first direction by urging the first rotation adjustment blade 31 toward the first urging hole 312 of the first diaphragm adjustment blade 31. multiply. At this time, the first aperture adjusting blade 31 can be rotated from the open position to the closed position by rotating around the first shaft 221, for example. When the first rotary rod 351 moves from the second position to the first position in the first rail hole 223, the first rotary rod 351 is first with respect to the first aperture adjustment blade 31. Torque is applied in the second direction opposite to the direction of. At this time, the first aperture adjustment blade 31 can be rotated from the closed position to the open position, for example.

Correspondingly, the second driver 36 has a second rotating rod 361 that is moved in an arc shape by the driving of the second driver 36. An appropriate rolling mechanism is disposed between the second driver 36 and the second rotating rod 361 so that the second driver 36 moves the second rotating rod 361 in a circular or arcuate shape. . A second rail hole 224 is provided on the base 22 so as to correspond to the arc-shaped track of the second rotary rod 361 of the second driver 36. A force hole 322 is provided correspondingly, and the bottom plate 34 and the cover board 33 are also provided with holes at corresponding positions, and the second rotating rod 361 of the second driver 36 is the second rail hole 224 of the base 22. , The corresponding holes in the bottom plate 34 and the cover board 33 and the second biasing holes 322 of the second aperture adjustment blade 32 are provided so as to pass through the second biasing holes 322. Arranged from the side. Needless to say, the bottom plate 34 and the cover board 33 are provided so as not to obstruct the second rotating rod 361. When the second rotating rod 361 is driven by the second driver 36 to rotate, the second rotating rod 361 moves from the first position to the second position in the second rail hole 224 of the base plate 22. At this time, the second rotary rod 361 biases the second diaphragm adjusting blade 32 in the first direction by urging the second rotating rod 361 toward the second urging hole 322 of the second diaphragm adjusting blade 32. multiply. At this time, the second diaphragm adjusting blade 32 can be rotated from the open position to the closed position by rotating around the second shaft 222, for example. When the second rotary rod 361 moves from the second position to the first position in the second rail hole 224, the second rotary rod 361 is first with respect to the second aperture adjustment blade 32. Torque is applied in the second direction opposite to the direction of. At this time, the second aperture adjustment blade 32 can be rotated from the closed position to the open position, for example.

As shown in FIG. 1, the first aperture adjustment blade 31 further includes a first hole O1 having a first arc-shaped contour 310 and a first opening diameter, and the second aperture adjustment blade 32 is The second aperture O2 having the second arc-shaped contour 320 and the second opening diameter is further provided, and the first hole O1 of the first aperture adjustment blade 31 and the second aperture adjustment blade 32 are provided with the second aperture O2. The aperture diameter of the second hole O2 is different from or smaller than the aperture opening defined on this plate. As shown in FIG. 1, as an example, the first aperture diameter of the first aperture adjustment blade 31 is smaller than the second aperture diameter of the second aperture adjustment blade 32. In addition, in the bottom plate 34, the cover board 33, and the base plate 22, the openings 340, 330, and 220 are provided on the optical path of the lens device so that the light beam can enter, and the aperture opening of the lens device is provided in the plate. This plate may be any of the bottom plate 34, the cover board 33, and the base plate 22, or may be another module having an opening on the optical axis. Further, when the aperture is shielded and becomes small, the aperture diameter of the entire lens is correspondingly small.

For example, when the first diaphragm adjusting blade 31 is located at the open position, the light is completely transmitted through the diaphragm aperture diameter defined in the plate, and when the first diaphragm adjusting blade 31 is located at the closed position, the diaphragm aperture portion in the plate is Translucent. Similarly, when the second diaphragm adjusting blade 32 is located at the opening position, for example, the light is completely transmitted at the diaphragm opening diameter defined in the plate, and when the second diaphragm adjusting blade 32 is located at the closed position, The opening is transparent.

Further, referring to FIG. 2 in accordance with FIG. When the first driver 35 drives the first aperture adjustment blade 31 to the open position and the second driver 36 drives the second aperture adjustment blade 32 to the open position, the first aperture adjustment blade 31 The first arc-shaped contour 310 is located at a position corresponding to the contour of the bottom plate 34, the cover board 33, and the openings 340, 330, and 220 of the base 22, and The second arc-shaped contour 320 is located at a position corresponding to the contours of the bottom plate 34, the cover board 33, and other partial contours of the openings 340, 330, and 220 of the base plate 22. That is, the aperture of the entire lens apparatus is the initial size. The first aperture adjustment blade 31 and the second aperture adjustment blade 32 are provided as a module together with the first driver 35 and the second driver 36, respectively. Also, the first aperture adjustment blade 31 and the second aperture adjustment are provided. When the adjustment blade 32 is provided in an overlapped manner (overlapping vertically), the replacement of the module of the first diaphragm adjustment blade 31 or the second diaphragm adjustment blade 32 is not disturbed by the other module, and is replaced. It becomes easy.

Further, referring to FIG. 3 in accordance with FIG. When the first driver 35 drives the first aperture adjustment blade 31 to, for example, the open position, and the second driver 36 drives the second aperture adjustment blade 32 to the closed position, the first aperture adjustment blade 31 is driven. The first arc-shaped contour 310 is located at a position corresponding to the contours of the bottom plate 34, the cover board 33, and the openings 340, 330, and 220 of the base plate 22, and The second hole O2 is displaced on the optical axis of the lens, and is displaced to a position overlapping with the aperture diameter of the plate (the base plate 34, the cover board 33, and the base plate 22). It is defined by the second opening diameter of the second hole O2 of the two aperture adjustment blades 32.

Further, referring to FIG. 4 together with FIG. When the first driver 35 drives the first diaphragm adjustment blade 31 to, for example, a closed position and the second driver 36 drives the second diaphragm adjustment blade 32 to, for example, an open position, the second diaphragm adjustment blade 32 is driven. The second arc-shaped contour 320 is located at a position corresponding to the contour of the bottom plate 34, the cover board 33, and the openings 340, 330, and 220 of the base 22, and The first hole O1 is displaced on the optical axis of the lens and is displaced to a position overlapping the aperture diameter of the plate (the bottom plate 34, the cover board 33, and the base plate 22). It is defined by the first opening diameter of the first hole O1 of one aperture adjustment blade 31.

In the structure, the diaphragm of the optical system can be adjusted to the diaphragm aperture diameter, the first aperture diameter, or the second aperture diameter of the plate. The first driver 35 and the second driver 36 can be disposed on the side surface of the optical system frame. For example, it can be arranged on the corresponding sides of the driver base. In the embodiment, as an example, the two diaphragm adjustment blades 31 and 32 are coupled to the two drivers 35 and 36. If one aperture adjusting blade and one driver are used as a set of aperture adjusting mechanisms, only one set of aperture adjusting mechanisms may be provided, but in order to realize a further class of aperture adjustment, the optical system Three, four, or more aperture adjustment mechanisms may be arranged on the side of the frame. Further, two or two or more throttle chambers may be arranged at the front and rear. Among them, a plurality of holes arranged so that the opening diameters are sequentially increased are provided for each throttle chamber, and the user selects and uses the opening diameter.

A second embodiment of the present invention will be described. As shown in FIG. 5, the second embodiment diverts the code of the first embodiment. Unlike the first embodiment, in the second embodiment, the lens device includes only the first aperture adjustment blade 31 and the first driver 35.

Further, referring to FIG. 6 in accordance with FIG. For example, when the first aperture adjustment blade 31 is driven by the first driver 35 so as to be displaced to the open position, the first arcuate contour 310 of the first aperture adjustment blade 31 is changed to the bottom plate 34, the cover The board 33 and the base plate 22 are located at locations corresponding to the outlines of the openings 340, 330, and 220. That is, the aperture of the entire lens device is the initial size. The first aperture adjustment blade 31 is modularized together with the first driver 35.

Further, referring to FIG. 7 together with FIG. For example, when the first driver adjustment blade 31 is driven by the first driver 35 so as to be displaced to the closed position, the first driver O causes the first hole O1 of the first diaphragm adjustment blade 31 to be in the lens. And is displaced to a position that overlaps the aperture diameter of the plate (for example, the bottom plate 34, the cover board 33, and the base plate 22). In this case, the diaphragm of the lens device is defined by the first opening diameter of the first hole O1 of the first diaphragm adjustment blade 31.

In an embodiment of the present invention, a hole having an aperture diameter is installed in the aperture adjustment blade, and the user uses a driver to displace the hole on the optical axis to a position overlapping the original aperture aperture diameter. The aperture of the lens can be adjusted by driving the aperture adjusting blade. For example, in order to realize multiple-class aperture adjustment of a camera lens, the aperture adjustment blades and drivers can be provided in multiple sets, thereby adjusting the depth of field by selecting the aperture when shooting. Can do. Further, in the embodiment of the present invention, one diaphragm adjusting blade is coupled to one driver, so that repair or replacement when a failure occurs is convenient.

As mentioned above, although this invention was demonstrated using preferable embodiment, these embodiment does not limit this invention. Those skilled in the art can make various substitutions and modifications without departing from the spirit and scope of the present invention. Accordingly, the scope of the invention is defined by the appended claims.

22 base 24 driver base
26 Lens base 31 First aperture adjustment blade
32 Second aperture adjustment blade 33 Cover board
34 Bottom plate 35 First driver
36 Second driver 37 Lens system 37
38 Image recording device 220 Opening
221 First shaft 222 Second shaft
223 First rail hole 224 Second rail hole
241 1st accommodation space 242 2nd accommodation space
310 first arc-shaped contour 311 first shaft hole
312 First biasing hole 320 Second arcuate contour
321 Second shaft hole 322 First bias hole
330 opening 340 opening
351 First rotating rod 361 Second rotating rod
O1 first hole O2 second hole

Claims (4)

An optical frame;
A lens system disposed on the optical system frame;
A plate which is fixedly provided on the optical system frame or formed by extending from the optical system frame, the plate having an aperture diameter of the diaphragm defined on the plate;
When connected to the plate and includes an arcuate contour and is in a first position, light is completely transmitted through the aperture opening of the plate and the arcuate contour is a portion of the aperture opening of the plate An aperture adjustment blade provided so that light is transmitted through a part of the aperture opening of the plate when in the second position.
A driver connected to the diaphragm adjusting blade and displacing the diaphragm adjusting blade;
A lens apparatus capable of adjusting an aperture, comprising: A cover board fixed to the optical system frame;
Another diaphragm adjusting blade connected to the plate;
Further including
The cover board is provided at a certain distance from the plate;
The lens apparatus according to claim 1, wherein an accommodation space for accommodating the aperture adjustment blade is provided between the cover board and the plate. And further comprising another driver connected to the other diaphragm adjusting blade and displacing the other diaphragm adjusting blade,
The aperture adjustment blade is provided with a hole having a diameter smaller than the aperture opening diameter of the plate, and the driver displaces the hole of the aperture adjustment blade so as to overlap the aperture opening of the plate,
The other diaphragm adjusting blade is provided with another hole, and the other diaphragm adjusting blade includes another arc-shaped contour;
The another driver displaces another hole in the other diaphragm adjustment blade so as to overlap the diaphragm opening of the plate,
The diaphragm adjusting blade and the other diaphragm adjusting blade are provided so as to intersect with each other,
Among them, the driver is provided to drive the aperture adjustment blade to an open position or a closed position, and the other driver is provided to drive the other aperture adjustment blade to an open position or a closed position. When the driver drives the aperture adjustment blade to the closed position and the other driver drives the other aperture adjustment blade to the open position, the aperture of the lens device is in the aperture adjustment blade. Defined by the opening diameter of the hole,
When the driver drives the aperture adjustment blade to the open position and the other driver drives the other aperture adjustment blade to the closed position, the aperture of the lens device is in the other aperture adjustment blade. Defined by the opening diameter of another hole,
When the another driver drives the other diaphragm adjusting blade to the open position, the other arc-shaped contour of the other diaphragm adjusting blade is the other part of the contour in the diaphragm opening of the plate. Correspondingly,
Among them, the diaphragm adjusting blade is pivotally mounted on the optical system frame, and a rotary rod that is driven by the driver and moves in an arcuate track is provided on the driver, corresponding to the arcuate track. A track hole is provided in the optical system frame, a biasing hole is provided in the aperture adjustment blade, the rotating rod is provided through the track hole and the biasing hole, and the rotating rod is provided to the driver. When driven and rotated, by urging through the urging hole, the diaphragm adjusting blade is moved to an open position or a closed position, and the other diaphragm adjusting blade is pivotally mounted on the optical system frame, A rotating rod that is driven by the another driver and moves in an arcuate path is provided on the other driver, a track hole corresponding to the arc-shaped path is provided in the optical system frame, and a biasing hole. Is provided on the other diaphragm adjusting blade. The rotating rod is provided through the raceway hole and the biasing hole, and when the rotating rod is driven by the other driver to rotate, it is biased through the biasing hole, The lens apparatus according to claim 2, wherein the other diaphragm adjustment blade is moved to an open position or a closed position. The optical system frame is
A base provided for attaching the plate and the diaphragm adjusting blade;
A driver base provided for mounting the driver;
A lens base provided for attaching a lens in the lens system;
With
The driver base is provided between the base and the lens base, the driver is provided on a side of the driver base,
At least two or all of the base, the driver base, and the lens base are integrally formed.
The lens apparatus according to claim 1, wherein the aperture adjustment is possible.