KR20100035386A - Image stabilizer and digital photographing apparatus comprising the same - Google Patents

Abstract

PURPOSE: An image stabilizer and a digital photographing apparatus with the same are provided to drastically reduce hand shaking during photographing of the digital photographing apparatus and realize simple configuration. CONSTITUTION: A compensation lens support plate(113) supports a compensation lens(111). A base(120) movably supports the compensation lens support plate along with the first and second axes. The first axis is vertical to an optical axis. The second axis is vertical to the optical axis and the first axis. The first driving unit(131) moves the compensation lens so that the compensation lens support plate can move along with the first axis. A pressurization member(150) pressurizes the compensation lens module toward a base so that the compensation lens support plate is closely touched with the base.

Description

Image stabilization and digital photographing apparatus comprising the same

The present invention relates to a hand shake correction apparatus and a digital photographing apparatus having the same, and more particularly, to a hand shake correction apparatus and a digital photographing apparatus having the same, which significantly reduce hand shake when photographing using a digital photographing apparatus.

In general, a digital photographing apparatus is a device capable of generating and / or storing a digital file of a still image or a digital file of a video about a subject, and includes a digital still camera (DSC) and a digital video camera (DVC). ) Or a digital camera mounted on a mobile phone.

Recently, as the digital shooting apparatuses such as digital still cameras and / or digital video cameras are widely used, the desire of consumers to obtain high quality still images and / or moving images is increasing. In order to prevent degradation, there is an increasing demand for a digital photographing apparatus having a camera shake correction apparatus. Conventional image stabilization apparatus has been in the way to perform the image stabilization function by moving the image stabilizer lens or the image pickup device.

Among them, in the conventional image stabilization apparatus which performs the image stabilization function by moving the image stabilization lens, a correction lens module is disposed on the base, and the image stabilization function is performed by moving the correction lens module relative to the base.

In the camera shake correction lens system, the correction lens module needs to be in close contact with the base. For this purpose, a coil spring or the like has been conventionally used. However, in this case, since the coil spring has a large volume, it has become a cause of inhibiting the miniaturization and thinning of the digital photographing apparatus, and since its configuration must be provided with a large number of components related to the coil spring, Problems exist that are complex, expensive to manufacture and increase the risk of failure.

The present invention has been made to solve various problems including the above problems, and the camera shake correction device and the digital photographing device having a simple configuration and can be miniaturized at the same time significantly reducing the hand shake when shooting with a digital photographing apparatus It aims to provide.

The present invention provides a correction lens module including a correction lens and a correction lens support plate for supporting the correction lens; A base for movably supporting the correction lens support plate along a first axis perpendicular to the optical axis passing through the correction lens, and along the optical axis and a second axis perpendicular to the first axis; A first driver moving the correction lens support plate to move the correction lens support plate along the first axis; A second driving unit which moves the correction lens support plate to move the correction lens support plate along the second axis; And a pressing member which presses the correcting lens module toward the base such that the correcting lens module is in close contact with the base.

In the present invention, the pressing member may be a leaf spring that provides a predetermined elastic force.

In the present invention, the pressing member may press the correcting lens module toward the base in a direction substantially parallel to the optical axis passing through the correcting lens.

In the present invention, the correction lens module may further include a magnet disposed on the correction lens support plate, and each of the first driver and the second driver may be a coil disposed on the base.

In the present invention, the first driver may be disposed on one side of the correction lens, and the second driver may be disposed on the other side of the correction lens.

In the present invention, a ball bearing or a roller bearing may be interposed between the correction lens module and the base.

In the present invention, the pressing member may include at least one of a wire spring or a torsion spring.

According to another aspect of the present invention, there is provided a digital image processing apparatus including any of the above-described image stabilization apparatuses.

According to the image stabilization apparatus and the digital photographing apparatus having the same according to the present invention made as described above, the image stabilization device and the digital camera having the same and the configuration is simple and can be miniaturized at the same time significantly reducing the hand shake when shooting with the digital imaging device Imaging apparatus can be implemented.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view schematically showing the image stabilization device according to an embodiment of the present invention, Figure 2 is a combined perspective view schematically showing the image stabilization device of FIG.

Referring to FIG. 1, the camera shake correction apparatus 100 according to the present exemplary embodiment includes a correcting lens module 110, a base 120, an imaging device 125, a first driver 131, a second driver 132, Ball bearings 141, 142, 143 and leaf spring 150.

The correction lens module 110 includes a correction lens 111 and a correction lens support plate 113 for supporting the correction lens 111. The correction lens module 110 is positioned such that the center of gravity is located at the geometric center of the correction lens module 110 in such a manner that the top and bottom are symmetrical and the left and right are symmetrical with respect to the geometric center point.

A central portion of the corrective lens support plate 113 is formed in a substantially disk shape, and two first protrusions 113a protrude from both sides of the disk-shaped central portion. The first protrusion 113a is formed at a position corresponding to the first driver 131 and the second driver 132 of the base 120 to be described later, and the magnets (to be described later) at the bottom of the first protrusion 113a ( 115, 116 may be disposed. On the other hand, three second protrusions 113b protrude from the central portion of the disc shape in the lateral direction. The second protrusion 113b is formed at a position corresponding to the ball bearings 141, 142, 143 of the base 120 to be described later. Meanwhile, four third protrusions 113c protrude from the upper surface of the central portion of the disc shape. The third protrusion 111c is formed to be fitted into the second hole 150b of the leaf spring 150 to be described later.

The base 120 has a correction lens support plate 113, a first axis (x-axis) perpendicular to the optical axis (z-axis) passing through the correction lens 111, and a second axis perpendicular to the optical axis and the first axis ( to move along the y axis). As a result, the base 120 movably supports the correction lens module 110 including the correction lens support plate 113. Therefore, when a shake or the like occurs, such that the image from the data acquired by the image pickup device 125 may not be clear, the correction lens module 110 moves to the lower side of the base 120. Image stabilization is performed so that an image from the data acquired by the image pickup device 125 to be combined can be sharpened to compensate for hand shake. In other words, when the image stabilizer 100 is mounted on the digital photographing apparatus, the base 120 is attached to the main body of the digital photographing apparatus, and the main body of the digital photographing apparatus is shaken by hand shaking, such that the base of the image stabilizer 100 is shaken. Although the 120 moves along the main body of the digital photographing apparatus, the correcting lens support plate 113 moves relative to the base 120 together with the correcting lens 111, resulting in another lens including the correcting lens 111. The light passing through the unit is incident on a certain portion of the image pickup device 125 in spite of the shaking of the digital photographing apparatus to obtain a clear still image or a moving image without the shaking.

As such, the correction lens module 110, that is, the correction lens support plate 113, may move with respect to the base 120 by the first driver 131 and the second driver 132. That is, the first driver 131 moves the correction lens support plate 133 such that the correction lens support plate 113 is movable along the first axis (x axis). The second driver 132 moves the correction lens support plate 113 to move the correction lens support plate 113 along the second axis (y axis).

Meanwhile, the first driver 131 and the second driver 132 may be implemented in various ways. For example, each of the first driver 131 and the second driver 132 may be a coil disposed on the base 120. May be). In this case, the correction lens module 110 may include magnets 115 and 116 disposed on the correction lens support plate 113 as shown in FIG. 1. In such a structure, the first driving unit 131 and the second driving unit 132 and the magnets (the coils through which the current flows) are controlled by controlling the magnitude of the current supplied to the first driving unit 131 and the second driving unit 132. By causing an attractive force and / or repulsive force of a desired size to be generated between the 115 and 116, the correction lens module 110 may be moved by the first driver 131 and the second driver 132.

The ball bearings 141, 142, 143 are disposed on the base 120, respectively, and are interposed between the base 120 and the correcting lens module 110, such that the correcting lens module 110 is mounted on the base. By moving the rolling motion relative to the 120 to minimize the friction force generated between the correction lens module 110 and the base 120. Here, in FIG. 1, three ball bearings 141, 142, and 143 are illustrated, but the spirit of the present invention is not limited thereto, and each of the correction lens module 110 and the base 120 may be provided. The number and size of the ball bearings may be variously changed according to the size, the friction force acting between the correction lens module 110 and the base 120, and the like. In addition, in order to minimize the friction force generated between the correcting lens module 110 and the base 120, other bearings such as a roller bearing as well as a ball bearing as shown in FIG.

On the other hand, the correction lens module 110 needs to be in close contact with the base 120, for this purpose, a conventional coil spring or the like was used. However, in this case, since the coil spring has a large volume, it has become a cause of inhibiting the miniaturization and thinning of the digital photographing apparatus, and since its configuration must be provided with a large number of components related to the coil spring, Problems exist that are complex, expensive to manufacture and increase the risk of failure. Therefore, in order to prevent such a problem from occurring, the digital photographing apparatus according to the present exemplary embodiment includes a leaf spring 150 as a pressing member for pressing the correcting lens module 110 toward the base 120.

In more detail, in order for the camera shake function to be stably performed, the correction lens module 110 should move along the first axis (x axis) and the second axis (y axis) with respect to the base 120. It must be fixed about the third axis (z axis). To this end, the correction lens module 110 must be pressed against the base 120 to closely adhere the correction lens module 110 to the base 120. To this end, the plate spring 150 is coupled to the upper side of the correction lens module 110 and the base 120, thereby providing an elastic force continuously in the direction in which the correction lens module 110 is pressed toward the base 120.

Here, the leaf spring 150 means a plate-shaped spring made of spring steel, and is formed in a square plate shape having a size substantially equal to that of the base 120. The first holes 150a are formed at four corners of the leaf spring 150, respectively, and are fitted into the protrusions 120a formed at the four corners of the base 120. In addition, a plurality of second holes 150b are formed at the center of the leaf spring 150 and fitted to the third protrusion 113c formed in the correction lens module 110. In this state, the leaf spring 150 is coupled to the base 120 and the correction lens module 110 by a thermal fusion or bonding method. In this way, by using the leaf spring 150 having a simple configuration as the pressing member, the mechanical configuration of the image stabilizer 100 can be simplified and the production can be easily obtained.

On the other hand, the leaf spring is shown as a pressing member for pressing the correction lens module 110 toward the base 120 side, the spirit of the present invention is not limited to this, the wire spring having a similar configuration and function to the leaf spring ( Wire springs or torsion springs can also be used as pressure members.

As described above, the image stabilization apparatus according to the exemplary embodiment of the present invention uses a leaf spring 150 having a simple configuration as a pressing member, thereby significantly reducing the vibrations at the time of photographing and at the same time, the configuration is simple, miniaturized and thin. A camera shake correction apparatus and a digital photographing apparatus having the same can be implemented.

3 is a perspective view schematically illustrating a digital camera according to another embodiment of the present invention.

Referring to FIG. 3, a digital camera 200 as a digital photographing apparatus according to the present invention includes a self-timer lamp 211, a flash 212, a shutter release button 213, a viewfinder 217, a flash-light sensor 219, a power switch 231, a lens unit 220, and a remote receiver 241.

In the self-timer mode, the self-timer lamp 211 operates for a set time from when the shutter release button 213 is pressed to when the image starts to capture an image. The flash-light amount sensor 219 detects the light amount when the flash 212 operates and inputs the light amount to a digital camera processor (not shown) through a microcontroller (not shown). The remote receiver 241 receives a command signal from a remote controller (not shown), for example, a photographing command signal, and inputs it to a digital camera processor through a microcontroller.

Such a digital camera may be equipped with a camera shake correction apparatus according to the above-described embodiments and / or variations thereof. Through this, it is possible to prevent the deterioration of the image sharpness due to the shaking of the digital camera including the hand shake of the user, and in particular, the structure is simpler than the conventional image stabilization device, and thus the digital photographing apparatus can be realized that is made smaller and thinner.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is an exploded perspective view schematically showing a camera shake correction apparatus according to an embodiment of the present invention.

2 is a perspective view schematically illustrating the image stabilization apparatus of FIG. 1.

3 is a perspective view schematically illustrating a digital camera according to another embodiment of the present invention.

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

100: image stabilizer 110: correction lens module

111: Correction lens 113: Correction lens support plate

120: base 131: first drive unit

132: second drive unit 141, 142, 143: ball bearing

150: leaf spring

Claims (8)

A correction lens module including a correction lens and a correction lens support plate for supporting the correction lens; A base for movably supporting the correction lens support plate along a first axis perpendicular to the optical axis passing through the correction lens, and along the optical axis and a second axis perpendicular to the first axis; A first driver moving the correction lens support plate to move the correction lens support plate along the first axis; A second driving unit which moves the correction lens support plate to move the correction lens support plate along the second axis; And And a pressing member for pressing the correcting lens module toward the base so that the correcting lens module is in close contact with the base. The method of claim 1, The image stabilization device is characterized in that the pressing member is a leaf spring providing a predetermined elastic force. The method of claim 1, And the pressing member presses the correcting lens module toward the base in a direction substantially parallel to an optical axis passing through the correcting lens. The method of claim 1, The correction lens module further includes a magnet disposed on the correction lens support plate, wherein each of the first driver and the second driver is a coil disposed on the base. The method of claim 1, The first driver is disposed on one side of the correction lens, and the second driver is disposed on the other side of the correction lens. The method of claim 1, And a ball bearing or a roller bearing are interposed between the correction lens module and the base. The method of claim 1, The pressurizing member is a camera shake correction device including at least one of a wire spring (torsion spring). A digital image processing apparatus comprising the image stabilization apparatus according to any one of claims 1 to 7.

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