1. Field of the Invention
The present invention generally relates to optics and, more particularly, to lens barrel structures that are suitable for use with miniature cameras.
2. Related Art
Cameras often employ one or more lens elements to provide focusing or zooming features. Typically, the lens elements are located in a lens barrel that is positioned in proximity to an imager. Light received through the camera's aperture can be transmitted through the various lens elements of the lens barrel and focused on the imager.
In products such as digital cameras and other personal electronic devices, it is often important to utilize space and materials efficiently in order to allow the products to be miniaturized, as well as to reduce weight. As product sizes become smaller, efficient utilization of space and materials becomes increasingly important.
Lens mount 420 has a ring portion 450 having an interior surface 490 as well as a substantially circular interior space 410. As illustrated, ring portion 450 has an exterior diameter D6 and an interior diameter approximately equal to diameter D1 of housing 180 of lens barrel 110. A plurality of threads 185 are provided on an external surface of housing 180 for engaging threads on interior surface 490 of lens mount 420. Raised portions 195 of housing 180 may be provided to secure housing 180 of lens barrel 110 against ring portion 450 after lens barrel 110 has been inserted into lens mount 420. Raised portions 195 may be provided on a right end of housing 180 (as illustrated in
Unfortunately, lens barrel 110 fails to provide efficient utilization of space. In particular, although lens barrel 110 is sized with uniform diameter D1 to accommodate last lens element 170, it is nevertheless oversized with respect to lens elements 160. As a result, excess spaces 190 are formed between lens elements 160 and housing 180. These excess spaces 190 can cause exterior dimensions of lens barrel 110 and lens mount 420 to be unnecessarily large, resulting in less efficient utilization of space, and impeding the miniaturization of products in which lens barrel 110 is employed. Additional material may also be necessary to stabilize lens elements 160 within excess spaces 190, thereby contributing to excess weight.
Accordingly, there is a need for an improved approach to lens barrel design that overcomes the deficiencies discussed above. In particular, there is a need to provide an improved lens barrel design that provides efficient utilization of space and reduced weight when employed in miniature digital cameras and personal electronic devices.
In accordance with one embodiment of the present invention, a lens barrel includes: a housing comprising a first section having a first diameter and a second section having a second diameter; a first lens element having a diameter approximately equal to the first diameter of the first section, wherein the first lens element is enclosed by the first section of the housing; and a second lens element having a diameter approximately equal to the second diameter of the second section.
In accordance with another embodiment of the present invention, a camera includes: a lens barrel comprising: a housing comprising a first section having a first diameter and a second section having a second diameter, a first lens element having a diameter approximately equal to the first diameter of the first section, wherein the first lens element is enclosed by the first section of the housing, and a second lens element having a diameter approximately equal to the second diameter of the second section; a stage; a lens mount adapted to secure the first section of the lens barrel relative to the stage; an imager; and an actuator adapted to move the lens barrel relative to the imager.
In accordance with another embodiment of the present invention, a method of forming an image includes: providing a lens barrel, wherein the lens barrel comprises: a housing comprising a first section having a first diameter and a second section having a second diameter, a first lens element having a diameter approximately equal to the first diameter of the first section, wherein the first lens element is enclosed by the first section of the housing, and a second lens element having a diameter approximately equal to the second diameter of the second section; and translating the lens barrel relative to an imager.
In accordance with another embodiment of the present invention, a lens barrel includes: a plurality of cylindrical segments; a plurality of connecting members associated with each of the segments; and a plurality of apertures associated with each of the segments and corresponding to the connecting members.
In accordance with another embodiment of the present invention, a lens carrier includes: a base portion having a substantially-semicircular cross section; a plurality of lens elements; and a plurality of holding members located on a top surface of the base portion and adapted to engage the lens elements.
The scope of the invention is defined by the claims, which are incorporated into this section by reference. A more complete understanding of embodiments of the present invention will be afforded to those skilled in the art, as well as a realization of additional advantages thereof, by a consideration of the following detailed description of one or more embodiments. Reference will be made to the appended sheets of drawings that will first be described briefly.
Like element numbers in different figures represent the same or similar elements.
A plurality of lens elements 260 as well as a larger last lens element 270 are provided in lens barrel 210 and are enclosed by housing 240. Lens elements 260 may include any desired number of lens elements. In one embodiment, lens elements 260 include 2 to 6 lens elements. As illustrated, lens elements 260 are enclosed by first section 220 and have a diameter approximately equal to diameter D2 of first section 220. Last lens element 270 is enclosed by second section 230 and has a diameter approximately equal to diameter D3 of second section 230.
Diameters D2 and D3 can be implemented in accordance with sizes appropriate for digital cameras and other personal electronic devices. In one embodiment, diameter D2 is in the range of approximately 2 mm to approximately 7 mm. In another embodiment, diameter D3 is in the range of approximately 4 mm to approximately 8 mm.
One or more of lens elements 260 and last lens element 270 can be implemented as spherical lenses, aspherical lenses, and/or any other type of lens appropriate for use in digital cameras. For example, in one embodiment, lens elements 260 can be implemented as spherical lenses and last lens element 270 can be implemented as an aspherical lens providing compensation for optical imperfections introduced by the spherical lenses.
It will be appreciated that by implementing first section 220 with diameter D2 smaller than diameter D1 of lens mount 420, the interior and exterior diameters D2 and D7 of lens mount 520 can also be reduced in comparison with diameters D1 and D6 of lens mount 420. Various features of lens barrel 210 and lens mount 520 can be further ascertained from the perspective view provided in
A plurality of lens elements 360 as well as a larger last lens element 370 are provided in lens barrel 310 and enclosed by housing 340. In one embodiment, lens elements 360 may be implemented in accordance the numbers of lenses previously described herein with respect to lens elements 260 of
As illustrated, lens elements 360 are enclosed by first section 320 and have a diameter approximately equal to diameter D4 of first section 320. Last lens element 370 is secured to an end of second section 330 of housing 340 at a back end 390 of lens barrel 310. In various embodiments, last lens element 370 can be secured to second section 330 in a variety of ways including, but not limited to: glue, thermal exposure, ultrasonic welding, laser welding, UV tacking, mechanical engagement, or other ways as may be appropriate in particular applications.
Because last lens element 370 is secured to an end of second section 330 of housing 340, it need not be entirely enclosed by second section 330. Accordingly, dimension D5 of second section 330 of housing 340, as well as the weight of housing 340, can be reduced. In particular, diameter D5 can be reduced in comparison with diameter D3 of
Diameters D4 and D5 can be implemented in accordance with sizes appropriate for digital cameras and other personal electronic devices. In one embodiment, diameters D4 and D5 may be implemented using the ranges described herein with respect to diameters D2 and D3, respectively. One or more of lens elements 360 and last lens element 370 can be implemented as spherical lenses, aspherical lenses, and/or any other type of lens appropriate for use in digital cameras as described herein with respect to lens elements 260 and last lens element 270.
It will be appreciated that by implementing first section 320 with diameter D4 smaller than diameter D1 of lens mount 420, the interior and exterior diameters D4 and D8 of lens mount 620 can also be reduced in comparison with diameters D1 and D6 of lens mount 420, respectively.
As illustrated in
Lens barrel 210 may be inserted into interior space 510 in the direction of arrow 600 and engaged with ring portion 550 in any desired fashion in order to secure lens barrel 210 within ring portion 550. For example, in one embodiment, interior surface 590 of ring portion 550 may be threaded to engage complementary threads on exterior surfaces of first section 220 of lens barrel 210.
Base portion 560 of lens mount 520 may be engaged with stage 430 as indicated by arrows 470. As a result of the engagement between first section 220 of lens barrel 210 with ring portion 550 of lens mount 520, and the engagement of base portion 560 with stage 430, the position of lens barrel 210 can be fixed relative to stage 430.
Stage 430 is a movable stage capable of being translated in a plurality of directions by actuator 440. For example, actuator 440 can cause stage 430 to move forward or backward in the directions denoted by arrows 480 in response to signals provided by appropriate control circuitry. Actuator 440 can be implemented in accordance with any appropriate mechanism for providing controlled movements on a scale appropriate for miniature digital cameras. For example, in various embodiments, actuator 440 can be implemented using a Lorentz motor, a micro-electro-mechanical systems (MEMS) device, or other appropriate apparatus.
In use, back end 290 of lens barrel 210 can be situated in proximity to an imager of a digital camera while engaged with lens mount 520. Light received at front end 280 of lens barrel 210 is passed through lens elements 260 and last lens element 270, and can be received by the imager. It will be appreciated that lens barrel 210 can be configured to operate with an imager implemented using any appropriate technology for capturing digital images formed on the imager, such as charge-coupled device (CCD) or complimentary metal-oxide semiconductor (CMOS) technology. The images can be focused and/or zoomed by translating lens barrel 210 relative to the imager in the directions denoted by arrows 480 through operation of actuator 440.
As illustrated, base portion 830 is curved, exhibiting a substantially-semicircular cross section. In one embodiment, base portion 830 is implemented as a portion of a cylinder, such as a portion of a cylindrical lens barrel. In this regard, it will be appreciated that by using lens carrier 810 to hold lens elements 820, weight and materials costs can be reduced in comparison to known lens barrel structures. It will also be appreciated that a bottom surface 850 of base portion 830 may be engaged with a mount (not shown) as may be desired to use lens carrier 830 with a digital camera or other personal electronic device.
Voice coil 950 (i.e., a coiled wire) surrounds at least a portion of second section 930 and may be used as an actuator to move lens barrel 910. In particular, lens barrel 910 may be actuated through the operation of a magnetic field produced by current flowing through voice coil 950. In one embodiment, the magnetic field may interact with one or more magnets provided in or as part of second section 920. In another embodiment, the magnetic field may interact with one or more magnets external to lens barrel 910. Accordingly, by applying appropriate currents through voice coil 950, lens barrel 910 may be translated in a plurality of directions. For example, lens barrel 910 may be caused to move forward or backward in the directions denoted by arrows 960 in response to currents provided to voice coil 950.
Advantageously, because second section 920 has a diameter less than the diameter of first section 930, voice coil 950 may be provided around second section 920 without causing the external diameter of lens barrel 910 to exceed the diameter of first section 930. In various embodiments, voice coil 950 may be attached to second section 920 or alternatively may be suspended in proximity to second section 920. It will be appreciated that, in various embodiments, a plurality of voice coils 950 may be provided. In addition, it will be further appreciated that any of lens barrels 110, 210, 310, or 610, or lens carrier 810 may be implemented with one or more voice coils 950 and/or appropriate magnets as may be desired.
It will be appreciated that a lens barrel in accordance with one or more embodiments of the present invention can be provided as part of a digital camera or other personal electronic device such as a mobile telephone, a personal digital assistant (PDA), a pocket personal computer (pocket PC), a portable computer, a laptop computer, a notebook computer, or other device.
It will also be appreciated that the various lens elements discussed herein and shown in the figures are provided by way of example only, and not by way of limitation. Different lens elements, such as those having different configurations and/or different refractive powers, can be substituted for the lens elements shown or can be added to the lens elements shown. For example, the lens elements may be implemented as single element lenses or lens assemblies (i.e., compound lenses). The lens elements may be constructed from any desired material, such as plastic, glass, or other appropriate materials. In one embodiment, the lens elements are made from approximately 10 percent to approximately 15 percent glass-filled polycarbonate.
Where applicable, the various components set forth herein can be combined with each other and/or separated into sub-components without departing from the spirit of the present disclosure.
The foregoing disclosure is not intended to limit the present invention to the precise forms or particular fields of use disclosed. It is contemplated that various alternate embodiments and/or modifications to the present invention, whether explicitly described or implied herein, are possible in light of the disclosure.
This application is a divisional application of U.S. patent application Ser. No. 11/364,099 filed on Feb. 28, 2006 now U.S. Pat. No. 7,345,827 entitled “Lens Barrel” which claims the benefit of U.S. Provisional Patent Application No. 60/657,261 filed on Feb. 28, 2005 entitled “Autofocus Camera”. U.S. patent application Ser. No. 11/364,099 is also a continuation-in-part application of U.S. patent application Ser. No. 11/361,608 filed on Feb. 24, 2006 entitled “Autofocus Camera”. All of the above-identified applications are hereby incorporated by reference.
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Number | Date | Country | |
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60657261 | Feb 2005 | US |
Number | Date | Country | |
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Parent | 11364099 | Feb 2006 | US |
Child | 12030704 | US |
Number | Date | Country | |
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Parent | 11361608 | Feb 2006 | US |
Child | 11364099 | US |