KR20100024192A - Camera device - Google Patents

Abstract

PURPOSE: A camera device is provided to correct the optical axes of zoom lenses easily by moving a shaft in which the zoom lenses are installed. CONSTITUTION: A camera device(100) with zoom lenses comprises a shaft supporting the zoom lenses able to move, a housing which accepts the zoom lenses and the shaft and has a shaft hole for optical axis correction of the zoom lenses, and an adhesive(140) which is injected between the shaft hole and the shaft to fix the shaft to the housing.

Description

Camera device

The present invention relates to a camera apparatus, and more particularly, to a camera apparatus that can easily correct the optical axis of the zoom lenses by adjusting the position of the shaft in which a plurality of zoom lenses are linearly driven.

Recently, as the demand for miniaturization and sophistication of a mobile device equipped with a camera increases, a high resolution camera is recognized as an important factor as well as the arrangement of lens groups as well as the performance of each lens. In particular, in a camera apparatus equipped with a zoom in function to obtain an enlarged image of a subject, a plurality of zoom lenses are linearly supported on one or more shafts, so that each of the zoom lens groups is supported to match the optical axes of the zoom lenses. Shafts must also be manufactured and assembled with great precision.

Therefore, the arrangement and shaft fixing of the shaft, which are the key devices for adjusting the optical axis, are very important. However, high precision through fine adjustment of the shaft is often not realized due to dimensional errors in the processing of the device. The method of reducing this dimensional error depends only on the processing precision and the skill and ability of the assembly worker, which is closely related to the failure rate of the entire camera.

Currently, the camera device for adjusting the optical axis is used in many parts such as mobile phones, PDA terminals, computer cam devices, etc., and it is necessary to gradually implement a high precision camera device to meet the needs of consumers. One example of a camera apparatus is shown in FIG. 5.

As shown in FIG. 5, the prior art camera apparatus includes a housing 10 forming the exterior of the camera apparatus, a shaft 20 for supporting the zoom lenses, and a plurality of zoom lenses 30 movably supported by the shaft 20. It consists of.

The housing 10 is composed of a first housing 11 and a second housing 12 detachably coupled to each other so as to accommodate a part of a camera device in a rectangular box shape therein, and the first housing 11 is The opening hole 40 opened by the zoom lens 30 is formed to penetrate the center portion, and the first and second housings 11 and 12 have shaft holes 25 to which the shaft 20 is fixed. Is formed.

The shaft 20 is installed in the longitudinal direction of the housing 10 to support the zoom lenses 30, and a cam shaft driving the main shaft 21, the sub-axis shaft 22, and the zoom lenses 30 that face each other in a diagonal direction. 23, these shafts 20 are inserted into and fixed in the shaft hole 25 formed in the housing 10, respectively.

The zoom lens 30 is movably supported by the shaft 20 inside the housing 10 and is zoomed by linear movement inside the housing 10 by a cam shaft 23 driven by a driving means not shown. Perform In / Out function.

However, in the camera apparatus of the related art having the above configuration, the shaft is fitted into and fixed to each shaft hole, and thus, when the position of the shaft hole is out of the design value at the time of machining or assembly, a problem occurs that the optical axis of the entire zoom lens is shifted.

Because of this, when the position of the shaft hole is out of the design value, the zoom lens is out of focus and the camera function is lost. Therefore, the whole zoom lens adjusting device needs to be manufactured again. This results in a long production time and additional costs. .

The present invention was devised to solve the above problems, and an object of the present invention is to temporarily install a shaft in which a zoom lens is installed, and then fix the zoom lens by moving the shaft in a predetermined direction so that the optical axis of the zoom lens is aligned. It is to provide a camera device capable of easily performing optical axis correction.

As such, the present invention broadens the diameter of the shaft hole in which the shaft is temporarily seated, and moves the shaft up, down, left, and right in the shaft hole, and then couples the shaft to the shaft hole at a point where the optical axis of the zoom lens is coincident with the optical axis of the zoom lens. Correction can be achieved, whereby the optical axis can be easily corrected even when the optical axis of the zoom lens is out of order, thereby significantly reducing the defective rate of the product.

In order to achieve the above object of the present invention, the present invention comprises a shaft for movably supporting the zoom lens; A housing accommodating the zoom lens and the shaft therein and having a shaft hole formed to have a diameter larger than the shaft to move the shaft for optical axis correction of the zoom lens; It is injected into the space between the shaft and the shaft hole adhesive for fixing the shaft to the housing; provides a camera device comprising a.

According to the present invention, a shaft hole having a diameter larger than that of the shaft is formed in the housing, and an adjustment bush for adjusting the position of the shaft is inserted and coupled to the end of the shaft, and the adjustment bush is inserted into the shaft hole to correct the optical axis of the zoom lens supported on the shaft. The optical lens can be easily calibrated with the zoom lens by moving the control lens to the housing and fixing the adjusting bush to the housing.

That is, in the related art, when the shaft hole is formed out of the design value, the entire product must be disposed of due to the poor resolution of the image due to the optical axis mismatch of the zoom lens. Since the optical axis of the zoom lens can be easily corrected by increasing the width and adjusting the position of the shaft using the adjusting bush, it is possible to achieve an increase in product yield and a reduction in manufacturing cost.

Hereinafter, a camera apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 3, the camera device 100 according to the preferred embodiment of the present invention includes a housing 110, a shaft 120 for supporting a zoom lens, and an adjustment bush 130 coupled to the shaft 120. And an adhesive 140 fixedly coupling the adjustment bush 130.

The housing 110 forms an exterior of the camera device 100, and accommodates a plurality of zoom lenses and components constituting the camera device 100 such as a shaft 120 supporting the zoom lenses, and the housing 110. Is composed of a first housing 111 and a second housing 112 coupled to the first housing 111.

The first housing 111 has a shaft opening 160 through which a rectangular opening hole 150 opened toward the zoom lens so as to receive an image of an external subject, penetrates through a central portion thereof, and a shaft 120 supporting the zoom lens is coupled thereto. It penetrates adjacent to the vertex of the first housing 111 so as to face in the diagonal direction. In addition, a cam shaft hole 163 into which the cam shaft for electrically driving the zoom lens is inserted is formed adjacent to the right edge.

Here, the shaft hole 160 includes a main shaft shaft 121 and a sub shaft shaft hole 162 to which the main shaft shaft 121 and the sub shaft shaft 122 which support the zoom lens are coupled, respectively. 161 and 162 are preferably formed to have a larger diameter than the adjusting bushes 131 and 132 fitted to the ends of the main shaft / subshaft shafts 121 and 122.

The second housing 112 is fixedly coupled to the distal end of the first housing 111 and the prism 170 for receiving the image of the subject received from the zoom lens is fixed to the distal end. In addition, the second housing 112 has main shaft / sub shaft shaft holes 161 and 162 corresponding to the main shaft / sub shaft shaft holes 161 and 162 formed in the first housing 111. The shaft hole 160 formed in the second housing 112 is preferably formed to have substantially the same shape as the shaft hole 160 formed in the first housing 111. Alternatively, the shaft hole 160 formed in the second housing 112 is formed in the second housing 112. The main shaft / sub shaft shaft holes 161 and 162 may have the same diameter as the main shaft / sub shaft shafts 121 and 122 to which the adjustment bushes 131 and 132 are not fitted.

The shaft 120 is for movably supporting the zoom lens so that the zoom lens performs a zoom in / out function. The shaft 120 includes a main shaft shaft 121 and a sub shaft shaft 122 to support the zoom lens, and the main shaft / sub shaft shafts 121 and 122. ) Is preferably disposed substantially parallel to the longitudinal direction of the housing (110). In addition, the main axis / minor axis shaft (121, 122) is fixed to the main axis / minor axis correction bush (131, 132) is fixed to the end for the optical axis correction of the zoom lens.

The main shaft shaft 121 is temporarily seated in the main shaft shaft hole 161 so that the position of the main shaft shaft 121 can be adjusted within the main shaft shaft hole 161, and the main shaft shaft 121 is lateral in the main shaft shaft hole 161. Alternatively, after being moved in the longitudinal direction 220, it is fixedly coupled to the main shaft shaft hole 161 at the point where the optical axis of the zoom lens coincides. Here, as a means for fixing the spindle shaft 121 to the spindle shaft hole 161, an adhesive 140 that is cured by heat or ultraviolet rays or cured by a lapse of a predetermined time may be used. That is, the space between the main shaft adjustment bush 131 and the main shaft shaft hole 161 is filled with the adhesive 140 at the position where the optical axis of the zoom lens coincides, and the main shaft adjusting bush 131 is the main shaft while the adhesive 140 is cured. The shaft hole 161 is fixed at an appropriate position.

The minor shaft 122 is configured substantially the same as the main shaft 121, and is temporarily seated in the minor shaft hole 162 to enable positioning within the minor shaft hole 162 and the minor shaft 122. After moving in the transverse direction 210 or the longitudinal direction 220 in the sub-shaft shaft hole 162 is fixedly coupled to the sub-shaft shaft hole 162 at the point where the optical axis of the zoom lens coincides. Similarly, as the means for fixing the subshaft shaft 122 to the subshaft shaft hole 162, an adhesive 140 that is cured by heat or ultraviolet rays or cured by a lapse of a predetermined time may be used. That is, the space between the sub-axis adjusting bush 132 and the sub-shaft shaft hole 162 is filled with the adhesive 140 at the position where the optical axis of the zoom lens coincides, and the sub-axis adjusting bush 132 is the sub-axis as the adhesive 140 is cured. The shaft hole 162 is fixed at an appropriate position.

The adjusting bush 130 is fixedly inserted and coupled to the end of the shaft 120 to correct the optical axis of the zoom lens constituting the camera device 100. As shown in FIG. 3, the adjusting bush 130 has a cross-section. It has a T-shape, more specifically, the adjustment bush 130 is formed to extend in the radial direction at the end of the shaft coupling portion 125 and the shaft coupling portion 125 is inserted into the shaft 120 and the positioning rod 230 ) Is composed of a rod coupling portion 235 is coupled.

Shaft coupling portion 125 is made of a hollow cylindrical shape so that the shaft 120 is fixedly inserted into the inside, it is preferable that the inner diameter portion in which the shaft 120 is inserted is substantially the same as the diameter of the shaft 120 In this case, it is preferable that the shaft 120 and the shaft coupling portion 125 are interference fit so as to prevent the shaft 120 from being separated from the shaft coupling portion 125.

The rod coupling portion 235 is formed to have a larger outer diameter than the shaft coupling portion 125 integrally at the end of the shaft coupling portion 125, and the upper portion of the rod coupling portion 235 for adjusting the position of the shaft 120 The adjusting groove 236 is formed to insert the fitting protrusion 231 formed in the positioning rod 230. That is, when the positioning rod 230 is in close contact with the rod coupling portion 235 to adjust the position of the shaft 120, the fitting protrusion 231 of the positioning rod 230 is inserted into the adjustment groove 236, Slip and the like of the positioning rod 230 can be prevented.

On the other hand, the adjustment bush 130 is composed of the main shaft adjustment bush 131 and the sub-axis adjustment bush 132 coupled to the main shaft shaft 121 and the sub-shaft shaft 122, respectively, but the main shaft / sub-axis adjustment bush (131,132) It is preferable to have the same form.

The adhesive 140 is fixedly coupled to the housing 110 to adjust the position of the shaft 120 to correct the optical axis of the zoom lens, and is injected to fill the space between the adjustment bushes 131 and 132 and the shaft holes 161 and 162. After hardening, the shaft 120 is fixedly coupled. As the adhesive 140, a general adhesive such as an adhesive that is cured when exposed to heat or ultraviolet rays or an adhesive that is cured when a predetermined time elapses may be used. In this embodiment, an ultraviolet curable adhesive 140 that is cured by ultraviolet rays is used. It is desirable to.

2 is a perspective view of the camera apparatus 100 according to the present invention. A portion is an enlarged shape of the main shaft shaft 121 in which the main shaft adjusting bush 161 is pressed into the main shaft shaft hole 161. will be. In this case, the space between the main shaft / base shaft adjusting bushes 131 and 132 and the main shaft / sub shaft shaft holes 161 and 162 is filled with an adhesive 140 and cured. As a result, the main shaft / sub shaft shafts 121 and 122 are formed at positions where the optical axis of the zoom lens is corrected. It may be fixed to the main shaft / minor shaft shaft holes (161, 162).

3 is a cross-sectional view of the camera apparatus 100 according to the present invention, and illustrates the main shaft / sub-axis shafts 121 and 122 fitted to the main shaft / sub-axis adjusting bushes 131 and 132. Part B is an enlarged view of the sub shaft shaft 122 to which the sub shaft adjusting bush 132 is coupled, and the fitting protrusion 231 of the positioning rod 230 is inserted into the adjusting groove 236 formed in the sub shaft adjusting bush 132. .

4 is a perspective view illustrating a process of correcting an optical axis of a zoom lens according to the present invention. Here, the camera device 100 is fixed by a jig, etc., which can finely move the camera device 100 to precisely move the shaft 120, and the two positioning rods 230 may be independently moved to the jig. Is installed. Meanwhile, the adhesive 140 is not yet injected between the adjustment bush 130 and the shaft hole 160 to move the shaft 120.

First, the position adjusting rod 230 is in close contact with the adjustment bush 130, and then receives a predetermined image with a zoom lens to measure the resolution of the image. In this case, when the resolution degradation due to the optical axis shift of the zoom lens appears, the position adjusting rod 230 ), The optical axis of the zoom lens is corrected by moving the shaft 120. The positioning rod 230 moves the shaft 120 in the transverse direction 210 and the longitudinal direction 220 and finds the position where the resolution of the image is the best, that is, the position where the optical axis of the zoom lens coincides. Subsequently, the adhesive 140 is filled in the space between the main shaft / base shaft adjusting bushes 131 and 132 and the main shaft / sub shaft shaft holes 161 and 162 and irradiated with ultraviolet rays to cure the adhesive 140.

As mentioned above, although the optical-axis adjustment camera apparatus of this invention was demonstrated with reference to the preferred embodiment of this invention, it is clear for those skilled in the art that correction, change, and various deformation | transformation embodiments are possible without departing from the idea of this invention.

1 is a perspective view of a camera apparatus according to the present invention;

FIG. 2 is a perspective view and a partially enlarged view of the camera device of FIG. 1; FIG.

3 is a cross-sectional view of the camera device of FIG. 1;

4 is a perspective view illustrating a process of correcting an optical axis of a zoom lens according to the present invention; And

5 is a perspective view of a camera apparatus according to the prior art.

Description of the Related Art

100: camera device 110: housing

120: shaft 125: shaft coupling portion

130: adjusting bush 140: adhesive

150: opening hole 160: shaft hole

Claims (7)

In the camera device provided with a zoom lens, A shaft for movably supporting the zoom lens; A housing accommodating the zoom lens and the shaft therein and having a shaft hole formed to have a diameter larger than that of the shaft to move the shaft to correct the optical axis of the zoom lens; And And an adhesive injected into a space between the shaft and the shaft hole to fix the shaft to the housing. The method according to claim 1, And an adjustment bush fixedly coupled to the end of the shaft to move the shaft, wherein the adjustment bush has a smaller diameter than the shaft hole. The method according to claim 2, And the adjustment bush can be moved in the transverse direction or the longitudinal direction inside the shaft hole to correct the optical axis of the zoom lens. The method according to claim 2, And a positioning rod fitted to the adjustment bush for moving the adjustment bush, wherein the positioning rod has at least one fitting protrusion fitted to an upper portion of the adjustment bush. The method according to claim 4, The adjustment bushing, A shaft coupling portion formed in a hollow cylindrical shape so that the shaft is inserted and coupled; And And a rod coupling portion integrally formed at an upper portion of the shaft coupling portion to have a larger diameter than the shaft coupling portion and having an adjustment groove formed to correspond to the fitting protrusion of the positioning rod. The method according to claim 3, And the adhesive is injected between the adjusting bush and the shaft hole after the adjusting bush is moved to correct the optical axis of the zoom lens. The method according to claim 6, The adhesive device is a camera device, characterized in that the ultraviolet curable adhesive that is cured when exposed to ultraviolet light.

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