KR100620790B1 - Automatic focus control apparatus for a camera - Google Patents

Abstract

The present invention is provided with a lens assembly (10) positioned to coincide with an optical axis, a cover assembly (20) having a hollow through which the lens assembly (10) penetrates at an inner center thereof, and a lower side of the cover assembly (20). The spring assembly 30 is inserted into the hollow of the cover assembly 20 and the lens assembly 10 is mounted and transported on one side thereof, and the holder assembly 40 connected to the bottom of the spring assembly 30 is installed. Camera auto focusing device that includes.

Camera, Auto Focus, Voice Coil, Handheld Terminal

Description

Automatic Focus Control Apparatus for a Camera}

1 is a block diagram showing an automatic camera focusing apparatus according to the present invention,

Figure 2 is a block diagram showing a cover assembly of the camera autofocus control device according to the invention,

3 is a block diagram showing a spring assembly of the camera autofocus control device according to the invention,

Figure 4 is a block diagram showing a holder assembly of the camera autofocus control device according to the invention,

5 is a view showing a fastening mode of the lower cover and the spring of the automatic camera focusing device according to the invention,

6 is a view showing a fastening mode of the retainer and the spring of the camera autofocus control device according to the invention.

<Description of the symbols for the main parts of the drawings>

10 lens assembly 20 cover assembly

22: lower cover 24: top plate

26: permanent magnet 28: yoke

29: upper cover 30: spring assembly

32: carrier 34: spring

36: Retainer 37: Retainer Ring

38: retainer blade 39: coil

40 holder assembly 42 holder

44: adjuster 46: thread

48: screw bone 50: support member

52: protrusion 54: fastening means

The present invention relates to an automatic camera focusing apparatus, and more particularly, a lens or a lens group of a small camera mounted on a small electronic device such as a mobile communication terminal by using a magnetic force generated between a permanent magnet and a coil to focus. The present invention relates to a camera autofocus control device based on a voice coil that can be moved precisely without eccentricity.

Until now, the camera auto focus control device has been widely used as a mechanical device for shifting a lens by converting a rotational motion of a motor into a linear motion using a gear.

However, since these mechanical devices cannot avoid static-dynamic errors due to friction, mechanical deformation, backlash, etc. accompanying the operation of the motor and gear, it is impossible to precisely control the reality because it is impossible to precisely control the motor and gear. There is a problem that it is difficult to miniaturize the camera due to the occupied space.

Currently, an auto focus apparatus using a voice coil has been developed to overcome the problems of the mechanical auto focus apparatus, and the auto focus control apparatus using the voice coil has an induction magnetic force of the coil within a static magnetic force formed by a permanent magnet. By using the generated Lorentz force in a linear motion, it is easy to be applied to a system for precisely moving a relatively short distance in a straight line.

As one example, Korean Patent No. 0514533 discloses an image sensor for capturing an image of a base and a subject, a lens assembly for converting an image of the subject into a specific magnification and transferring it to an image sensor, and a lens holder for fixing the lens assembly. A lens guide for supporting the lens holder in the optical axis direction, suspension means for supporting the lens guide in the optical axis direction on the base, a wound coil fixed to the lens guide, a cover for protecting the lens holder and the coil from the outside , A magnet fixed to the cover, a yoke for guiding the magnetic flux of the magnet to the coil side, and driving an image sensor to take an image of the subject and applying a current to the coil to control the focusing of the lens assembly. A small camera device is disclosed, and Korea Patent Publication 2005-0023569 discloses an automatic focusing apparatus for a camera that enables autofocusing of a camera by using a magnetic force line, and Korean Patent No. 0490253, wherein a coil is coupled to a holder fastened in a bolt-type detachable lens assembly. A driving unit, a leaf spring coupled to the upper end for linear movement of the driving unit, two connectors for supplying current to both ends of the coil copper wire of the driving unit, and two terminals for connecting the two connectors and the electronic circuit board. And a magnetic circuit part including a ring-shaped permanent magnet between two soft magnetic bodies and a coil placed between the soft magnetic bodies, and an upper / lower holder using a hook fastening method to combine the components into one. Is disclosed.

However, the conventional camera autofocus control device having the above-described configuration has an initial driving voltage as a spring and a variable among the components constituting the device as an important factor influencing the driving characteristics of the device. It affects the driving system that is related to the driving of the driving system. In general, the spring is very thin (0.05 mm), which makes it difficult to mount during assembly work and is easily distorted. When the spring is not firmly attached to the carrier, the carrier tilts during driving. ) And a jamming phenomenon is easily generated, there is a problem that is easily damaged even a slight external impact.

Here, the drive system means a moving part, ie, a spring assembly on which the lens assembly is mounted, to set the camera focus among the components of the camera autofocus control apparatus according to the present invention.

In addition, the initial driving voltage (preload voltage), which is one of the main variables, is one of the basic characteristics of the driving system, in which the voltage value itself intentionally generates a mechanical deviation to pull the carrier toward the reference point by a spring. This function prevents the lens from sagging or tilting due to gravity regardless of the direction of the camera, but it is difficult to keep the initial driving voltage constant for each product manufactured during actual product manufacturing. There is this.

In addition, the conventional camera auto focusing apparatus having the above-described configuration does not separate all the components in units, but exists independently of each other, and when the assembly is performed, the process is complicated, and if a defect occurs in one component, all components are disassembled. There is a cumbersome point to repair.

Accordingly, the present inventors have a retainer having a shape similar to that of the spring at the top of the spring to protect the spring during the study to overcome the above-mentioned problems, artificial artificial step value to the spring to adjust the initial drive voltage It is provided with an adjuster that can adjust the height of the carrier connected to the spring to be installed to provide a, and simplifies the assembly process by separating and assembling each component into a separate assembly, and quickly removes the defective part in the event of product failure The present invention has been completed by focusing on the fact that the finished product can be manufactured by replacement.

The present invention was derived to overcome the above problems, a lens assembly with a lens in the optical axis direction, a cover assembly with a permanent magnet, etc., a spring assembly and an adjuster provided with a coil, a retainer and a spring, etc. There is a technical problem to provide a camera autofocus control device comprising a holder assembly equipped with an adjuster.

In addition, the present invention has a technical problem to provide a camera autofocus control device that is connected to the retainer installed on the top of the spring to protect the spring provided in the spring assembly.

In addition, the present invention has a technical problem to provide a camera autofocus control device including an adjuster capable of adjusting the position of the carrier connected to the spring to artificially set the initial drive voltage.

In one aspect, the present invention provides a lens assembly positioned to coincide with an optical axis, a cover assembly having a hollow through which the lens assembly penetrates in an inner center thereof, and provided at a lower end of the cover assembly such that one side thereof is inserted into the hollow of the cover assembly. At the same time it provides a camera autofocus control device comprising a spring assembly that is mounted and carried on the inner side of the lens assembly and a holder assembly connected to the bottom of the spring assembly.

In another aspect, the present invention, the cover assembly of the camera automatic focusing device is provided on the permanent magnet, the upper end of the permanent magnet to change the flow direction of the magnetic force line, the lower end of the permanent magnet is provided to support the permanent magnet At the same time, the top plate for changing the direction of the magnetic lines of force, provided on the bottom of the top plate to provide an appearance of the bottom cover and cover assembly to which the top plate is seated and at the same time the permanent magnet, the top plate and the bottom cover is inserted into It provides a camera auto focus control device characterized in that the top cover is fixed.

In another aspect, the present invention is the spring assembly of the automatic camera focusing apparatus is a carrier formed with a hollow to the lens assembly, the spring is formed so that the inner diameter is larger than the diameter of the carrier hollow so that the insert is inserted into the hollow outside of the carrier O-ring retainer ring having an outer diameter smaller than the inner diameter of the coil and a retainer formed with a plate-shaped retainer wing to be seated on the upper end of the spring along the outer circumferential surface of the retainer ring, and the inner diameter of the retainer It provides a camera autofocus control device, characterized in that made of a coil fixed to the retaining ring.

In another aspect, the present invention, the holder assembly of the automatic camera focusing device adjuster having a hollow with a screw bone formed on the outer peripheral surface, a screw thread corresponding to the screw bone of the adjuster is provided with a hollow formed in the inner diameter and one side of the upper It provides a camera autofocus control device, characterized in that made of a holder connected to one side of the cover.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the following description is only for describing the present invention in detail and does not limit the scope of the present invention by the following description.

1 is a block diagram showing a camera autofocus control device according to the invention, Figure 2 is a block diagram showing a cover assembly of the camera autofocus control device according to the invention, Figure 3 is a camera autofocus control device according to the invention 4 is a block diagram showing a holder assembly of the camera autofocus control device according to the invention, Figure 5 is a view showing a fastening mode of the lower cover and the spring of the camera autofocus control device according to the present invention. 6 is a view showing the fastening mode of the retainer and the spring of the automatic camera focusing apparatus according to the present invention.

As shown in Figures 1 to 6, the camera autofocus adjusting device according to the present invention, from a macro perspective, the lens assembly 10 provided with a lens to coincide with the optical axis, the hollow so that the lens assembly 10 penetrates The cover assembly 20 is formed, the spring assembly 30 provided on the bottom of the cover assembly 20 and the holder assembly 40 is connected to the spring assembly 30 is installed connected to one side of the cover assembly 20 It consists of).

Camera autofocus control device according to the present invention having the above-described configuration is configured to be separated into the lens assembly 10, the cover assembly 20, the spring assembly 30 and the holder assembly 40, thereby assembling these assemblies separately first After assembly, each assembly can be combined with each other to manufacture the camera auto focus control device so that the final product can be easily assembled, and if some of the assemblies are defective, only the defective assembly is replaced with the normal assembly. Allows the final product to be manufactured quickly without replacement.

Thus, looking at the camera autofocus control device having the above-described configuration in more detail, the camera autofocus control device according to the present invention is formed of a rectangular parallelepiped, the assembly 10 is provided with a lens or a lens group positioned to coincide with the optical axis. And a cover assembly 20 having a hollow through which the lens assembly 10 penetrates at an inner center thereof, and is provided at a lower end of the cover assembly 20 so that one side thereof is inserted into the hollow of the cover assembly 20. Holder for adjusting the position of the spring 34 included in the spring assembly 30 at the same time is connected to the bottom of the spring assembly 30, the lens assembly 10 is mounted and carried on the inner side of the spring assembly (30) It consists of an assembly 40.

If necessary, the camera autofocus control device according to the present invention may further include a support member 50 for supporting the holder assembly 40 to the lower end of the holder assembly 40.

The lens assembly 10 according to the present invention refers to an assembly in which a lens or a lens group applied to a camera is mounted to coincide with an optical axis, and any assembly including a lens or a lens group commonly used in the art may be used. It may be used, and the shape of the lens assembly 10 is preferably a cylindrical shape.

The cover assembly 20 according to the present invention is for fixing the holder 34 of the spring 34 and the holder assembly 40 of the spring assembly 30 provided at the bottom of the cover assembly 20, as a rectangular parallelepiped It has a shape, and a hollow is formed in the center thereof through which the lens assembly 10 can pass.

The cover assembly 20 according to the present invention having such a shape is specifically provided at the upper end of the permanent magnet 26, the permanent magnet 26, yoke 22 for changing the flow direction of the magnetic force line, the permanent magnet ( 26 is provided at the bottom of the top plate 24 for supporting the permanent magnet 26 and at the same time changing the direction of the flow of magnetic lines in one direction, the top plate 24 is fixed to the top plate 24 is seated and fixed The upper cover 29 which provides the appearance of the lower cover 22 and the cover assembly 20, and at the same time the permanent magnet 26, the top plate 24 and the lower cover 22 is inserted into and fixed therein It is.

Here, the permanent magnet 26 may be used as long as it is a permanent magnet commonly used in the art, but preferably has an o-ring shape that is a disk shape having a hollow.

The yoke 22 is provided on the upper end of the permanent magnet 26 to flow the magnetic force lines generated from the permanent magnet 26 to only one side, preferably in the horizontal axis direction of the lens assembly 10, Any yoke 22 commonly used in the art may be used, but it is preferable to have an o-ring shape corresponding to the shape of the permanent magnet 26.

The top plate 24 constituting the cover assembly 20 according to the present invention is provided at the lower end of the permanent magnet 26 so as to flow the magnetic force lines generated in the permanent magnet 26 in only one direction. In order to achieve this purpose, any of the top plates 24 commonly used in the art may be used, and the shape thereof may have an O-ring shape corresponding to the permanent magnet 26, and the material thereof. It is preferable to use silver metal, preferably pure iron.

The lower cover 22 constituting the cover assembly 20 according to the present invention includes a yoke 28, a permanent magnet 26, and a top plate 24 constituting the cover assembly 20 of the cover assembly 20. It is for fixing to the upper cover 29 of the rectangular parallelepiped providing an external shape, and any one can be used as long as it can achieve this purpose, but preferably has an overall O-ring shape and two or more protrusions on the outer circumferential surface thereof. 52 is formed, and more preferably, four projections 52 may be formed on the outer circumferential surface thereof so as to be seated and fixed at each corner of the upper cover 29 having a rectangular parallelepiped shape.

In particular, the lower cover 22 according to the present invention is provided at the lower end of the top plate 24 and the top plate 24 is seated and fixed, and has an o-ring shape corresponding to the shape of the permanent magnet 26. At least two protruding at an interval along the outer circumferential surface of the lower cover 22, and formed in an O-ring shape having an outer diameter larger than the outer diameter of the top plate 24 so that the top plate 24 having a Four protrusions 52 are formed to be inserted into and fastened to each corner of the protrusion 52, preferably a rectangular parallelepiped upper cover 29, so that the component including the top plate 24 is a lower cover. Do not detach from (22).

In addition, the shape of the lower cover 22 constituting the cover assembly 20 according to the present invention preferably has an o-ring shape as a whole, but specifically its size and shape are connected to the bottom of the cover assembly 20. It is formed in a shape corresponding to the shape of the spring 34 of the spring assembly 30 to be installed, when the cover assembly 20 is assembled so as to be connected to the spring assembly 30, the lower cover 22 is a spring 34 It is in contact with the top surface of the) and by firmly fixing the spring 34 in the plane can reduce the tilt of the carrier generated when the camera is driven.

Here, the tilt is generated by a change in the elastic modulus of the spring, for example, the elastic force of the weak and strong portion of the spring when the current is applied to the actuator when the camera automatic focusing device is not assembled correctly As referring to the driving difference, inclusive meaning refers to the tilting of the lens barrel.

The upper cover 29 according to the present invention is to provide the outer shape of the cover assembly 20, it is preferable to have a shape as a rectangular parallelepiped as a whole, the hollow is formed so that the lens assembly 10 can penetrate at the center thereof The inside of the yoke 28, the permanent magnet 26, the top plate 24 and the lower cover 22 is formed therein so as to be seated and fixed therein, and the respective components are inserted and fixed.

Here, the lower end of the upper cover 29 is fastened in contact with one side of the holder assembly 40 when assembling the automatic camera focusing device, the upper cover 29 of the components inserted into and seated in the yoke 28, the permanent magnet 26 and the top plate 24 to be fastened to prevent the component from being detached from the upper cover (29).

Spring assembly 30 according to the present invention is formed in a cylindrical shape having a hollow as a whole is provided at the bottom of the cover assembly 20, the lens assembly 10 is mounted on one side thereof is connected to, installed inside As the current is applied to the coil 39, the lens assembly 10 is linearly moved in the optical axis direction.

Looking at the spring assembly 20 in more detail, the spring assembly 20 according to the present invention is inserted into the carrier 32, the hollow formed in the hollow, the carrier 32 is seated so that the lens assembly 10 is seated The retainer ring 37 of the O-ring type and the retainer ring 37 having an outer diameter smaller than the inner diameter of the coil 39, the inner diameter of which is larger than the diameter of the hollow of the carrier 32 so that the inner diameter of the carrier 32 may be installed. A retainer 36 having a plate-shaped retainer wing 38 formed thereon so as to rest on an upper end of the spring 34 along an outer circumferential surface thereof, and an inner diameter thereof is seated on an upper end of the retainer 36 so that the retainer ring 37 of the retainer 36 is formed. It consists of a coil 39 fixed to.

Carrier 32 constituting the spring assembly 20 according to the present invention is formed in a hollow one side of the center of the lens assembly 10 is inserted and mounted, along the outer circumferential surface of the spring 34, preferably the leaf spring As this insert is connected and installed, any one can be used as long as it can achieve this purpose, but it is preferable to use a carrier 32 commonly used in the art.

Here, the carrier 32 is a linear movement in the optical axis direction by the magnetic force of the coil 39 and the permanent magnet 26 of the cover assembly 20 provided in the spring assembly 20, the coil 39 When a current is applied to the magnetic field formed by the permanent magnet 26, that is, the induced magnetic force of the coil 39 is generated in the magnetic force line, causing the linear movement of the carrier 32.

On the other hand, the spring 34 constituting the spring assembly 20 according to the present invention is connected to the carrier 32 on which the lens assembly 10 is mounted to press the carrier 32, by a linear motion The carrier 32 is not particularly limited as long as it has an appropriate modulus of elasticity that allows the carrier 32 to return to its original position, but it is preferable to use a spring, particularly preferably a leaf spring, which is commonly used in the art.

At this time, the spring 34 has an inner diameter larger than the outer diameter of the carrier 32 is inserted along the outer peripheral surface of the carrier 32 and then a separate fastening means, for example, a spring at the bottom of the outer peripheral surface of the carrier 32 Fastening means 54 protruding outward to have an outer diameter larger than the inner diameter of 34 to fasten the spring 34 and the carrier 32.

In addition, the spring 34 according to the present invention may serve as a medium for contacting the coil 39 seated on the top of the spring 34 to receive current from the outside and to transfer the current to the coil 39. have.

Retainer 36 according to the present invention is provided between the spring 34 and the coil 39 to fix the spring 34 and the carrier 32, the retainer 36 to the top of the spring 34 It is possible to suppress the distortion of the spring 34 generated when the spring 34 is fixed to the carrier 32 and the spring 34 distortion that may occur when driving the camera, to achieve this purpose Any retainer 36 to be used may be used, but preferably an o-ring shape having a hollow corresponding to the spring 34 is preferable, and particularly preferably an outer diameter smaller than the inner diameter of the coil 39. The retainer ring 37 having an o-ring shape and a plate-shaped retainer wing portion 38 which is seated at the upper end of the spring 34 along the outer circumferential surface of the retainer ring 37 to protect the spring 34 are formed. good.

In particular, since the spring 34, preferably the leaf spring according to the present invention is typically very thin with a thickness of about 0.05mm, it is difficult to attach during assembly work, so that the phenomenon of the spring 34 is distorted, and the spring 34 ) Is not firmly installed and fixed to the carrier 32, a phenomenon such as tilting and / or jamming may occur when the carrier 32 moves due to the camera driving. In the present invention, the retainer may be used to overcome the above problems. 36 is provided at the upper end of the spring 34, the retainer wing portion 38 provided in the retainer 36 is to secure the spring securely.

Here, the mounting means to place other parts on the parts using tweezers or other jig.

In addition, the spring 34 according to the present invention is specifically configured to have a larger outer diameter than the inner diameter of the spring 34 to prevent the spring 34 from being distorted due to external impact.

The coil 39 constituting the spring assembly 30 according to the present invention is to form an induction magnetic force in the magnetic force formed by the permanent magnet 26 when the current is applied to allow the carrier 32 to linearly move. If used to achieve this purpose is not particularly limited, but preferably has an o-ring shape having a hollow so as to be seated and fixed to the top of the retainer 36, one side thereof may be applied to the current It is connected to the spring 34 so that it is installed.

On the other hand, the holder assembly 40 according to the present invention is provided at the lower end of the spring assembly 30 to adjust the height of the carrier 32 constituting the spring assembly 30 connected to the carrier 32 ( It is to artificially adjust the initial drive voltage by providing a step between the inner diameter and the outer diameter of 34, and has an adjuster 44 therein for achieving this purpose.

At this time, the adjuster 44 is configured to be connected to each other and the holder 42 provided at the lower bar, the holder 42 and the adjuster 44 is a screw thread 46 and the screw bone 48 is coupled It is fastened in the form.

Specifically, if the adjuster 44 according to the present invention is installed to provide a step between the inner diameter and the outer diameter of the spring 34, the shape and the installation location thereof are not particularly limited, but preferably the entire camera automatic. It is preferable to be installed at the top and / or bottom of the focusing device, and more preferably, it is provided at the bottom of the camera auto focusing device and connected to one side of the carrier connected to the spring.

Thus, the holder assembly 40 according to the present invention in more detail, the holder assembly 40 according to the present invention has a hollow, the screw thread corresponding to the screw bone 48 of the adjuster 44 inside the hollow 46 is formed and one side thereof has a holder 42 and a hollow connected to one side of the upper cover 29, and corresponds to a screw thread 46 formed inside the hollow of the holder 42 along its outer circumferential surface. Screw bone 48 is formed of the adjuster 44 is formed.

The holder assembly 40 having the configuration as described above moves the adjuster 44 up / down according to the rotation of the adjuster 44 fastened to the holder 42. When rotated to raise the adjuster 44 fastened to the holder 42, the carrier 32 of the spring assembly 30 which is connected to the upper end of the adjuster 44 is raised together to connect to the carrier 32 The inner diameter of the installed spring 34 is raised to generate a step between the inner diameter and the outer diameter of the spring 34.

At this time, the step value indicating the degree of step is the carrier 32 is driven when the voltage supplied to drive the drive system in the circuit reaches the specific voltage without the carrier 32 from the initial 0V to a specific voltage Artificially set the initial driving voltage to enable.

The operating mechanism of the camera autofocus control device according to the present invention having such a configuration operates in the same way as a conventional camera autofocus control device using a voice coil, and an example thereof is as follows.

First, a current is applied to a spring 34 included in the spring assembly 30 by a controller (not shown) of a camera, preferably a small camera, to transmit current to the coil 39 connected to the spring 34. .

The current-supplied coil 39 then generates an induction magnetic force within the magnetic force formed by the permanent magnet 26 to convert the Lorentz force into a linear motion so that the lens assembly is located in the hollow of the coil 39 ( The carrier 32 provided with 10 is moved in the optical axis direction.

Then, the carrier 32 is moved and the image of the projectile is transferred to the control unit through the lens assembly 10 to position the lens assembly 10 at the most suitable focus and then photograph.

As described above, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all aspects. The scope of the present invention should be construed that all changes or modifications derived from the meaning and scope of the following claims and equivalent concepts rather than the detailed description are included in the scope of the present invention.

Camera autofocus control apparatus according to the present invention is a lens assembly with a lens, a cover assembly with a permanent magnet, etc., a spring assembly with a coil and a spring and a holder assembly with an adjuster, and then assembled By assembling the components to manufacture the final camera auto focusing device to improve the work efficiency, there is an effect that can easily replace the defective products in case of failure.

In addition, the present invention has the effect of preventing the spring is distorted by installing a retainer connected to the top of the spring to protect the spring provided in the spring assembly.

In addition, the present invention has the effect that it is possible to artificially set the initial drive voltage by having an adjuster in the holder assembly.

Claims (6)

A lens assembly positioned to coincide with the optical axis; A cover assembly in which a hollow is formed through the lens assembly in an inner center thereof; A spring assembly provided at a lower end of the cover assembly, the one side of which is inserted into the hollow of the cover assembly and the lens assembly mounted on the inner side of the cover assembly; And a holder having a hollow having a screw valley formed on an outer circumferential surface of the spring assembly, the hollow corresponding to the screw valley of the adjuster having a hollow formed at an inner diameter, and one side of which is connected to one side of the cover assembly. The camera auto focus adjustment device comprising a holder assembly which rotates along the thread of the holder and moves up and down to provide a step between the inner and outer diameters of the spring. The method of claim 1, The cover assembly is provided at the top of the permanent magnet, the permanent magnet to change the flow direction of the magnetic force line, the top plate provided at the bottom of the permanent magnet to support the permanent magnet and at the same time change the flow direction of the magnetic line, the top plate It is provided at the bottom of the camera to focus on the top plate is provided with the top cover is fixed and at the same time to provide the appearance of the cover assembly and the permanent magnet, the top plate and the bottom cover is inserted into the interior fixed Regulator. The method of claim 2, The permanent magnet, the yoke, the top plate and the lower cover has an o-ring shape, characterized in that the camera auto focusing device. The method of claim 2, And the lower cover has an o-ring shape, and at least two protrusions are formed on an outer circumferential surface thereof. The method of claim 1, The spring assembly has a carrier formed with a hollow to seat the lens assembly, a spring whose inner diameter is larger than the diameter of the carrier hollow so as to be inserted into and installed outside the hollow of the carrier, and has an outer diameter smaller than the inner diameter of the coil. Camera retainer characterized in that the retainer ring and the retainer ring is formed on the top of the spring along the outer circumferential surface of the retainer ring and a coil seated on the upper end of the retainer is fixed to the retainer ring of the retainer Focus control. delete

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