(1) Field of the Invention
This invention relates generally to camera modules and relates more specifically to movable lens barrels being moved using ball bearings and a retention system is holding the lens barrel and ball bearings together even during shock conditions.
(2) Description of the Prior Art
Digital camera modules are used with many electronic devices such as e.g. mobile phones, personal data assistants (PDAs), computers, etc. These camera modules have to be as small as possible, reliable, and easy to be used, robust and require minimal power consumption. Furthermore the design of the camera modules should allow low manufacturing cost, while the quality of the images has to conform to a high standard.
Therefore modern camera modules should allow auto-focusing and minimal friction of the bearing for a movable lens barrel in order to achieve precise focusing of the camera.
There are known patents dealing with the design of camera modules.
U.S. Patent Publication (US 2008/0192363 to Shirono et al.) teaches a camera module in which a lens holder holding one or more optical lenses is movable in the direction of the optical axis and in which an auto-focus function and a zoom function are incorporated is reduced in size and weight. A bearing section is formed in the lens holder, and a drive shaft is inserted in the bearing section. An operation part of a piezo element is made to be in contact with the drive shaft.
U.S. patent (U.S. Pat. No. 5,966,551 to Haraguchi et al.) discloses a lens shutter type of camera in which a zoom lens is positioned in a lens block that has a sector gear rotatably associated with the lens block and with a rotatable cam ring. The cam ring and sector gear are rotatable in a substantially constant axial position. A movable finder optical assembly and a movable strobe assembly are movable in association with movement of the zoom lens. The zoom lens is movable between an extreme telephoto position and an extreme wide-angle position, as well as into a fully collapsed lens position beyond the extreme wide-angle position and a macro or close-up photographing position beyond the extreme telephoto position.
U.S. Patent Publication (US 2008/0075446 to Utz) describes a horological motor of the Lavet motor concept is used to form an actuator to control movement of a lens system to reduce power consumption in digital camera units used in various electronic equipment, e.g. PDA's, mobile phones, digital still cameras and camcorders, and as a result increase battery life.
A principal object of the present invention is to achieve methods and systems to hold parts of an auto-focus camera module using ball bearings together.
A further object of the present invention is to minimize friction for moving a lens barrel of an auto-focus camera module.
A further object of the present invention is to use magnetic forces to hold parts of an auto-focus camera module using ball bearings together.
Another further object of the present invention is to hold parts of an auto-focus camera module using ball bearings together even during a mechanical shock.
Another further object of the present invention is to hold parts of an auto-focus camera module using ball bearings together by a hook during a mechanical shock.
In accordance with the objects of this invention a method to retain with minimal friction a movable part, a fixed part and ball bearings of an auto-focus camera module has been achieved. The method invented comprises the following steps: (1) providing a camera module comprising a lens barrel, holding one or more lenses, one or more actuators to move the lens barrel, ball bearings to guide the movements of the lens barrel, and a carrier, (2) deploying a permanent magnet on an inner side of the carrier and on a same side as the ball bearings, and (3) deploying a metallic inlay on a moving part of the camera module in an opposite position to the permanent magnet.
In accordance with the objects of this invention an auto-focus camera module having a precise bearing and low friction has been achieved. The camera module invented comprises, firstly: a movable lens barrel, a carrier, and one or more actuators to move the lens barrel. Furthermore the camera module comprises ball bearings between the lens barrel and the carrier to guide the movements of the lens barrel, a permanent magnet on a same side of the carrier as the ball bearings, and a metallic inlay on the lens barrel opposite to the permanent magnet.
In the accompanying drawings forming a material part of this description, there is shown:
The preferred embodiments disclose methods and systems for auto-focus camera modules wherein ball bearings are guiding a movable lens barrel, the balls of the ball bearings are running in ball cages and an anti-creeping system is introduced in order to keep balls and cages in place in case of any shocks. In order to meet high image quality targets a very precise bearing with low friction is required.
Furthermore the present invention discloses methods and systems to retain its lens barrel and ball bearing system even in the event of a mechanical shock.
A key advantage of the present invention is that the lens barrel of the camera module can be moved with minimal friction, which is a prerequisite for meeting high quality image targets, and can be manufactured with lower costs than prior art using threads or guiding rods.
Bidirectional actuators, comprising coils wrapped around magnetic metal, preferably iron, and at least one permanent magnet are deployed to move the lens barrels of
The fixed part and the movable part of camera module using ball bearings have to be held together. It is important that a retention system, holding the parts together, should cause no additional friction. In order to minimize the force for lens displacement, mechanical sources of friction need to be eliminated. The magnetic retention system of the present invention has no friction sources except the ball bearing.
The moving part 21, which is a part of the lens barrel of the camera module, contains a metallic inlay 22, which is attracted by a permanent magnet 24 of the fixed part 23. The only contact points between fixed part and moving part are the balls 20 of the balls bearing. The magnetic retention system invented has a minimal friction. It should be noted that the inlay 22 is longer than the permanent magnet 24 in order to ensure that the full magnetic force of the permanent magnet 24 is active on the inlay 22 independent upon any possible position of the moving part 21 of the lens barrel.
It should be noted that the permanent magnet could be deployed on the movable part and the inlay on the fixed part of the camera module as well.
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Alternatively the attraction force of the permanent magnet can be adjusted more precisely by placing a second permanent magnet on the moving part instead of a metallic inlay. This attraction force defines the pre-load of the ball bearing. In this case should the permanent magnet on the movable part be in the direction of movement longer than the permanent magnet on the fixed part, or the magnet on the fixed part should be long enough that in any position of the movable part sufficient magnetic attraction is ensured.
A second feature of the present invention comprises a means to the parts together in case of a mechanical shock. The magnetic force my not be strong enough to hold the parts together in case of a shock condition. A hook or a screw holds the lens barrel to the carrier in this case. In normal operation, i.e. if there is no shock condition, there is no friction of the hook since it does not touch the carrier.
Alternative embodiments are possible as well. Instead of a hook a screw is deployed that is mounted on the movable part of the camera module, moving together during normal conditions. Another alternative is to deploy a rib, i.e. a kind of wall, on the fixed part of the camera opposite to the ball bearing.
While the invention has been particularly shown and described with reference to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made without departing from the spirit and scope of the invention.
This application is related to the following US patent applications: DI09-003/004, titled “Camera Module having a low-friction movable lens”, Ser. No. 12/661,752, filing date Mar. 23, 2010, DI09-021, titled “Stabilized Ball Bearings for camera lenses”, Ser. No. 12/660,780, filing date Mar. 5, 2010, DI09-007, titled “Twin-actuator configuration for a camera module”, Ser. No. 12/661,755, filing date Mar. 23, 2010, DI09-012, titled “Drop Detection Using Lens Position Sensing of Camera Module”, Ser. No. 12/661,756, filing date Mar. 23, 2010, and DI08-006, titled “Camera Shutter and position control thereof”, Ser. No. 12/658,280, filing date Feb. 5, 2010, and assigned to the common assignee of the present invention, herein incorporated by reference in their entirety.