KR101072404B1 - Yoke-free automatic focus control device for a camera - Google Patents

Abstract

The present invention provides a lens assembly positioned to coincide with an optical axis; A lens holder having a hollow in which the lens assembly is inserted and seated at an inner center thereof, the coil being wound along an outer circumferential surface thereof; An upper spring connected to an upper portion of the lens holder; A lower spring connected to the lower portion of the lens holder; A base holder having a light passing hole through which the light passing through the lens assembly penetrates at the same time as the lens holder is inserted and seated therein, and one side of the upper and lower springs connected to the lens holder is connected and installed; And a permanent magnet positioned at one side of the base holder so as to face a coil wound on the lens holder seated on the base holder.

Description

Yoke-Free Automatic Focus Control Device for a Camera}

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

Camera auto focusing device has been widely used as a mechanical device for shifting the lens by converting the rotational motion of the motor into 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.

In order to overcome the problems of the mechanical autofocusing device, an autofocusing device using a voice coil has been developed. The autofocusing control device 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 compact camera apparatus is disclosed.

Conventional camera autofocus control device having the above-described configuration must be provided with a yoke for inducing the magnetic flux of the magnet to the coil side in order for the lens assembly to drive in the optical axis direction.

However, the yoke has a problem that acts as a limitation in downsizing and lightening the camera apparatus.

The present invention has been made to overcome the above-mentioned problems, and provides a camera capable of miniaturizing and reducing the weight of the camera manufactured by configuring a camera autofocus control apparatus without the conventional yoke for transmitting magnetic force.

The present invention

A lens assembly positioned to coincide with the optical axis;

A lens holder having a hollow in which the lens assembly is inserted and seated at an inner center thereof, the coil being wound along an outer circumferential surface thereof;

An upper spring connected to an upper portion of the lens holder;

A lower spring connected to the lower portion of the lens holder;

A base holder having a light passing hole through which the light passing through the lens assembly penetrates at the same time as the lens holder is inserted and seated therein, and one side of the upper and lower springs connected to the lens holder is connected and installed; And

It provides a camera automatic focus control device comprising a permanent magnet located on one side of the base holder to face the coil wound on the lens holder seated on the base holder.

The camera autofocus control apparatus according to the present invention can reduce the size and weight of a camera manufactured by configuring a camera autofocus control apparatus without a conventional yoke for transmitting magnetic force.

1 is an exploded perspective view of an automatic camera focusing apparatus according to the present invention,
Figure 2 is a perspective view showing a partial cross-section of the camera autofocus control device according to the invention,
3 is a perspective view showing a lens holder of the camera automatic focusing apparatus according to the present invention;
Figure 4 is a perspective view showing an upper spring of the camera autofocus control device according to the invention,
5 is a perspective view showing a lower spring of the camera automatic focusing apparatus according to the present invention,
6 is a perspective view showing a base holder of the camera autofocus control device according to the invention.

The present invention provides a lens assembly positioned to coincide with an optical axis; A lens holder having a hollow in which the lens is inserted and seated at an inner center thereof, and having a coil wound along its outer circumferential surface; An upper spring connected to an upper portion of the lens holder; A lower spring connected to the lower portion of the lens holder; A base holder having a light passing hole through which the light passing through the lens penetrates at the same time the lens holder is inserted and seated therein, and one side of the upper and lower springs connected to the lens holder is connected and installed; And a permanent magnet positioned at one side of the base holder to face the coil wound on the lens holder seated on the base holder.

Here, the camera autofocus control device may further include a cover that is connected to the base holder in which the lens holder is inserted and seated to protect internal components.

Camera automatic focusing apparatus according to the present invention is applied to a camera, preferably a small camera mounted on an electronic device such as a mobile communication terminal, a camera, such as a mobile phone, PDA.

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

1 is an exploded perspective view of the camera autofocus control device according to the invention, Figure 2 is a perspective view showing a partial cross-section of the camera autofocus control device according to the invention, Figure 3 is a lens holder of the camera autofocus control device according to the invention 4 is a perspective view showing an upper spring of the camera auto focus adjusting apparatus according to the present invention, FIG. 5 is a perspective view showing a lower spring of the camera auto focus adjusting apparatus according to the present invention, and FIG. 6 is a camera according to the present invention. It demonstrates together as a perspective view which shows the base holder of an autofocus adjustment apparatus.

1 to 6, the camera autofocus adjusting apparatus according to the present invention comprises a lens assembly (2) positioned to coincide with the optical axis; A lens holder (4) in which a hollow in which the lens assembly (2) is inserted and seated in an inner center thereof is formed, and a coil (16) is wound along an outer circumferential surface thereof; An upper spring 12 connected to an upper portion of the lens holder 4; A lower spring 14 connected to the lower portion of the lens holder 4; An upper spring 12 having a light passing hole 34 through which the light passing through the lens assembly 2 passes through the lens holder 4 is inserted and seated therein, and connected to the lens holder 4. And a base holder 6 to which one side of the lower spring 14 is connected and installed. And a permanent magnet 10 positioned on one side of the base holder 6 so as to face the coil 16 wound on the lens holder 4 seated on the base holder 6.

If necessary, the automatic camera focusing apparatus according to the present invention is connected to the base holder 6 in which the lens holder 4 is inserted and seated so that the internal components, for example, the lens assembly 2 and the lens holder ( 4), the upper and lower springs (12, 14), the permanent magnet 10 and the like may further include a cover (8) to protect from external impact or electromagnetic waves.

Here, the cover 8 is not particularly limited as long as it covers the base holder 6 to protect the internal components, but preferably has a hollow to allow external light to enter the lens assembly 2. Do.

The cover 8 is preferably made of SUS or plastic.

The lens assembly 2 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 includes a lens or lens group conventionally used in the art having this purpose. Any assembly may be used, and the shape of the lens assembly 2 is preferably cylindrical.

Here, it is preferable that a thread is formed on the outer circumferential surface of the lens assembly 2 so as to be inserted into and coupled to the lens holder 4.

The lens holder 4 according to the present invention is for adjusting the focus of the camera while driving up and down by inserting and seating the lens assembly 2.

At this time, when a screw thread is formed on the outer circumferential surface of the lens assembly 2, a screw bone corresponding to the screw thread is formed in the hollow of the lens holder 4 so that the lens assembly 2 and the lens holder 4 are easily coupled to each other. Can be.

The lens holder 4 has a rectangular parallelepiped or cylindrical shape as a whole, and a hollow in which the lens assembly 2 is inserted and seated is formed at an inner center thereof, and a coil 16 is wound along the outer circumferential surface thereof.

If necessary, the upper spring 12 and the lower spring 14 may be connected to the upper and lower portions of the lens holder 4, respectively.

Here, the coil 16 is to allow the lens assembly 2 connected linearly in the direction of the optical axis as the current is applied to the lens assembly 2, if any conventional coil in the art for this purpose Although it may be used, it is preferable that the wound form is square, polygonal or circular.

In this case, in order to easily wind the coil 16 to the lens holder 4, a coil groove 18 is formed along the outer circumferential surface of the lens holder 4 to provide a place where the coil 16 can be wound. It is preferable.

In addition, the lens holder 4 may be formed with a protruding protrusion so that the upper spring 12 and the lower spring 14 can be connected to the upper and lower sides thereof, respectively. In this case, in order to more easily describe the present invention, the protrusions formed on the lens holder 4 will be arbitrarily referred to as first protrusions 22.

The upper spring 12 and the lower spring 14 according to the present invention are connected to the lens holder 4 in which the lens assembly 2 is mounted, that is, inserted and seated to provide elastic force to the lens holder 4. As long as the lens holder 4 has a suitable modulus of elasticity to be returned to its original position when the lens holder 4 is moved by a linear motion, it is not particularly limited, but is preferably a spring, particularly preferably a plate commonly used in the art. It is better to use springs.

At this time, the upper spring 12 and the lower spring 14, which are connected to the upper and lower portions of the lens holder 4, are respectively connected to one side of the base holder 6 into which the lens holder 4 is inserted and seated. Is installed.

The upper spring 12 and the lower spring 14 preferably have a larger diameter hollow than the lens assembly 2 so that the lens assembly 2 can penetrate the inner center thereof.

As a specific aspect, the upper spring 12 according to the present invention is provided with a groove is inserted into the projections provided in the protrusions 20 of the base holder 6 to be described later to each corner of the leaf spring having a rectangular plate shape. It is. At this time, in order to explain the present invention more easily, the protrusion formed on the protrusion 20 of the base holder 6 is arbitrarily referred to as a second protrusion 30, the upper spring is inserted into the second protrusion 30 The groove of 12 will be referred to as a second groove 28.

In addition, a first groove 26 is formed inside the upper spring 12 as a groove into which the first protrusion 22 of the lens holder 4 is inserted and connected.

As another specific aspect, the lower spring 14 according to the present invention is a leaf spring having a rectangular plate shape, the first projection 22 which is located below the lens holder 4 is inserted into the first spring 22 is connected to the installation; One groove 26 is provided, the outer circumferential side of the leaf spring is seated in the step 24 provided in the base holder 6 to be described later, the lower spring 14 and the base holder 6 are connected to each other do.

In particular, the lower spring 14 is connected to each other in the coil 16 wound on the lens holder 4 and a power supply unit (not shown) for supplying current from the outside to receive the current from the outside coil 16 It can act as a mediator to deliver.

As one example, the lower spring 14 according to the present invention has a form separated into two disconnected parts A and B, and is connected to the power supply unit, the positive electrode, and the negative electrode to one side of each disconnected part A and B. Terminals A 'and B' are formed as parts to be connected, and each disconnected part A and B is connected to the coil 16.

The base holder 6 according to the present invention provides a place where the lens holder 4 is inserted and seated, and the upper spring 12 and the lower spring 14 are connected to each other.

Although the shape of the base holder 6 is not particularly limited, it is preferably a rectangular parallelepiped provided with a light passing hole 34 through which light passes, and at the same time the lens holder 4 can be easily inserted and seated. Protruding portion 20 is formed in each corner portion of the upper portion of the rectangular parallelepiped shape, the protrusion is coupled to the upper spring 12 is coupled to one end of the protrusion 20 is installed, specifically the second projection ( 30 is formed, it is preferable that the lower spring 14, preferably the side of the lower spring 14 is mounted on one side of the upper surface of the rectangular parallelepiped to be installed is connected to the step.

Here, the light passing hole 34 is a path through which the light provided from the lens assembly 2 passes, and light obtained by capturing an image of a subject in the lens assembly 2 passes through the light passing hole 34. Allows an image to be imaged on an image sensor (not shown).

In addition, the protrusion 20 allows the lens holder 4 to be easily inserted and stably positioned, and protrudes vertically from the upper bottom surface of the rectangular parallelepiped to provide a thickness of the camera auto focusing device. Done.

The shape of the protrusion 20 is not particularly limited, but the protrusion 20 is vertically protruded to have a width by a predetermined length of the left and right sides of the upper edge of the rectangular parallelepiped shape, and protrusions formed at each corner of the base holder 6 ( It provides a permanent magnet receiving portion 32 which is a place where the permanent magnet 10 can be located in the space between the 20 and the protrusion 20.

Here, the permanent magnet receiving unit 32, when the camera automatic focusing device is completed assembled, the coil 16 wound on the lens holder 4 and the permanent magnet 10 to face each other, the coil 16 When a current is applied to the magnetic force line of the coil 16, the magnetic force line is induced to allow the lens holder 4 to perform linear movement, preferably linear movement with respect to the optical axis.

At this time, the permanent magnet 10 is preferably provided to face each other with the coil 16 wound on at least two sides of the outer peripheral surface of the lens holder 4, preferably a rectangular parallelepiped lens holder (4).

Specifically, the permanent magnet 10 is preferably provided to face the coil 16 over the entire outer peripheral surface of the lens holder (4).

The permanent magnet 10 according to the present invention may be used as long as it is a permanent magnet commonly used in the art, but a coil wound around the lens holder 4 for easy linear movement of the lens holder 4. It is preferable to have an area greater than or equal to (16).

Referring to the operation of the automatic camera focusing apparatus according to the present invention having such a configuration as follows.

First, a current is applied to a lower spring 14 from a power supply (not shown) of a camera, preferably a small camera, to transmit current to a coil 16 connected to the lower spring 14.

Next, the coil 16 to which the current is supplied generates an induced magnetic force in the magnetic force formed by the permanent magnet 10 to convert the Lorentz force into a linear motion, thereby causing the lens holder 4 to which the coil 16 is wound. Move in the optical axis direction.

Then, the lens holder 4 is moved and the image of the projectile body is transferred to the control unit (not shown) through the lens assembly 2 to position the lens assembly 2 at the most suitable focal point and to photograph.

Then, when photographing is terminated and the current applied to the lower spring 14 is disconnected, the lens holder 4 is moved by the elastic force of the lower spring 14 and the upper spring 12 connected to the lens holder 4. It returns to its original position.

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.

2 lens assembly 4 lens holder
6: base holder 8: cover
10 permanent magnet 12 upper spring
14: lower spring 16: coil
18: coil groove 20: protrusion
22: first projection 24: step
26: first groove 28: second groove
30: second projection 32: permanent magnet receiving unit
34: light transmission

Claims (6)

A lens assembly positioned to coincide with the optical axis;
A lens holder having a hollow in which the lens assembly is inserted and seated at an inner center thereof, and having a coil wound along an outer circumferential surface thereof;
An upper spring connected to an upper portion of the lens holder;
A lower spring connected to the lower portion of the lens holder;
A base holder having a light passing hole through which the light passing through the lens assembly penetrates at the same time as the lens holder is inserted and seated, and one side of the upper spring and the lower spring connected to the lens holder is connected and installed; And
It includes a permanent magnet located on one side of the base holder to face the coil wound on the lens holder seated on the base holder;
The base holder has a rectangular parallelepiped shape that allows the lens holder to be easily inserted and seated at the same time as the light passing hole is provided, and protrusions are formed at each corner portion of the upper side of the rectangular parallelepiped shape, The upper spring is coupled to the projection is connected to the installation is formed, the camera autofocus control device, characterized in that the step is provided with the lower spring is connected to one side of the upper surface of the rectangular parallelepiped shape. The method of claim 1,
The lens autofocus control device is characterized in that the cover is further provided with a cover to protect the internal components installed in connection with the base holder is seated. The method of claim 1,
And the lens holder has a coil groove formed along the outer circumferential surface to provide a place where the coil can be wound. The method of claim 1,
The lower spring is connected to the coil and the power supply winding the winding of the lens holder is installed so that the current can be applied to the coil. The method of claim 4, wherein
The lower spring is an automatic focus control device, characterized in that separated into a portion that is connected to the coil and a portion that the power supply is connected. delete

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