KR20060005600A - Mobile communication terminal with camera with optical zoom - Google Patents

Abstract

The present invention relates to a mobile communication terminal having a camera, and includes a prism or a reflector to reflect light at a right angle to move the light in a horizontal direction of the terminal, thereby securing a focal length in the terminal, thereby providing an optical zoom function. It is an object of the present invention to provide a mobile communication terminal having a camera having an optical zoom function that does not increase the volume of the terminal effectively.

The present invention to achieve the above object the case of the terminal; A light unit formed in the case; A lens unit including at least one lens and reflecting means for reflecting light incident to the light at a right angle; A gear unit for adjusting a lens position of the lens unit; A motor unit for adjusting the gear unit; Control means for controlling the motor unit; And it provides a mobile communication terminal having a camera comprising a camera module for digitizing the image provided through the lens unit.

Mobile terminal, camera module, focal length, optical zoom, prism, reflector

Description

TECHNICAL FIELD [0001] Mobile communication terminal having camera with a function of optical zoom             

1 is a schematic diagram showing the configuration of an optical lens unit of a mobile communication terminal having a camera having an optical zoom function according to the prior art;

Figure 2 is a schematic diagram schematically showing the configuration of an optical lens unit of a mobile communication terminal having a camera having an optical zoom function according to the present invention.

3A to 3D are conceptual views illustrating a process of implementing a zoom function of a mobile communication terminal having a camera having an optical zoom function according to the present invention.

4 is a conceptual diagram showing the relationship between thread pitch for movement of an optical lens unit of a mobile communication terminal having a camera having an optical zoom function according to the present invention;

Figure 5 is a block diagram showing an embodiment of a mobile communication terminal having a camera having an optical zoom function according to the present invention.

* Description of the main parts of the drawings

10, 110: terminal case 11, 111, 112: mining unit

20, 120: lens unit 123: prism

30, 140: drive unit for moving the lens unit 131, 132: lens shift gear

150: camera module 160: memory

40, 170: Motor controller 180: MSM (Mobile Station Modem)

The present invention relates to a mobile communication terminal having a camera, and more particularly, to a mobile communication terminal having a camera capable of performing an optical zoom function effective in a zoom function of a camera.

In general, a mobile communication terminal having a camera does not use an optical zoom function and uses a digital zoom lamp. Because, when using the optical zoom of the camera, such a space is required because a plurality of lenses must be located, and the focal length of the lens must be moved, because it is difficult to give such an optical zoom function to a small terminal.

Hereinafter, a process of implementing the optical zoom function of the prior art will be described with reference to FIG. 1. 1 is a schematic diagram schematically showing the configuration of an optical lens unit of a mobile communication terminal or a digital camera having a camera having an optical zoom function according to the prior art.

As shown in Figure 1, the optical unit of the digital camera unit according to the prior art, the camera module case 10; A lighter 11 formed at one side of the camera module case 10 and receiving light in a direction to be photographed; A lens unit 20 having a plurality of lenses in the case 10; A sensor (50) for detecting light entering through the light (11) and the lens unit (20); Digital Signal Processor (DSP) which is a digital imaging device; A motor 30 for realizing a zooming function by moving each lens position of the plurality of lens units 20 to adjust a focal length and magnification; And a motor controller 40 for controlling the motor.

That is, each lens of the lens unit 20 is moved by the motor 30 to realize a zoom function desired by the user.

In the conventional optical zoom mechanism as described above, the lighter 11, the lens unit 20, and the sensor must be arranged in a line, and thus the volume thereof becomes large. In particular, in the mobile communication terminal, an image captured by the camera is displayed on the opposite side of the camera. As the camera photographing direction is located on the horizontal surface of the terminal case for visual confirmation, the space for disposing the lens unit formed in a straight line with the light emitting part and moving the lenses to adjust the focus is very narrow, so that the effective optical There was a problem that zooming was not possible, and there was a problem in that the thickness of the terminal became very thick to implement the optical zoom function.

Accordingly, the present invention has been proposed to solve the above problems, and includes a prism or a reflector to reflect the light at a right angle to move the light in the horizontal direction of the terminal, thereby securing a focal length in the terminal, An object of the present invention is to provide a mobile communication terminal having a camera having an optical zoom function that effectively implements a zoom function but does not significantly increase the volume of the terminal.

The present invention to achieve the above object the case of the terminal; A light unit formed in the case; A lens unit including at least one lens and reflecting means for reflecting light incident to the light at a right angle; A gear unit for adjusting a lens position of the lens unit; A motor unit for adjusting the gear unit; Control means for controlling the motor unit; And it provides a mobile communication terminal having a camera comprising a camera module for digitizing the image provided through the lens unit.

The skylights are formed at both sides of the terminal case; The reflecting means may be rotated by the drive gears, and may be configured to selectively reflect the light of one side of both light-emitting portions to the camera module.

The reflecting means of the lens unit may be a prism in the form of a right triangle or may be a reflector reflecting the light of the light portion to the camera module.

The lens of the lens unit is a convex lens disposed on the side of the light; And a concave lens disposed between the convex lens and the camera module.

In addition, the motor unit drive motor; A convex lens shift gear connected to the driving motor, the convex lens shift gear configured to move a convex lens; And a concave lens shift gear that is engaged with the convex lens shift gear and comprises a worm gear that moves the concave lens.

Also, when the size is changed by performing the zoom function, the distance between the convex lens and the concave lens is changed to adjust the focal length of the concave lens to change the image magnification; While maintaining the distance between the convex lens and the concave lens, it is preferable that the convex lens and the concave lens move so that the focus of the concave lens is formed on the camera module.

Therefore, when the changed distance between the convex lens and the concave lens is e, and the difference between the changed focal lengths of the concave lens is g, the ratio of the pitch of the convex lens shift gear and the pitch of the concave lens shift gear is g: e +. It is preferable that the concave lens moves by e + g when the convex lens is made of g and moves by g.

Hereinafter, an embodiment of a mobile communication terminal having a camera having an optical zoom function according to the present invention will be described with reference to FIGS. 2 to 5.

2 is a schematic diagram schematically showing a configuration of an optical lens unit of a mobile communication terminal having a camera having an optical zoom function according to the present invention.

As shown in Fig. 2, in this embodiment, the case 110 of the mobile communication terminal; Mining parts 111 and 112 formed on one side of the case or on opposite sides of the case; A lens unit 120 including a reflecting means 123 for reflecting light entering the skylights 111 and 112 at right angles and at least one lens to implement a zoom function; Gear unit 130 for adjusting the lens position of the lens unit 120; A motor unit 140 driving the gear unit 130; Control means for controlling the motor unit 140; And it provides a mobile communication terminal having a camera comprising a camera module 150 for digitizing the image provided through the lens unit.

In the present embodiment, the reflecting means 120 of the lens unit 120 is a prism 123 of the right triangle shape is used, it is possible to reflect the light entering the skylight (111, 112) toward the camera module 150 side. have. In addition, in order to facilitate the user's shooting, the terminal case includes two light units 111 and 112. The prism 123 drives the gears 124 and 125 so that the light can be taken through the light unit in one selected direction. It can rotate by.

A plurality of lenses is provided between the camera module 150 and the prism 123. In this embodiment, the concave lens 122 is provided on the convex lens 121 camera module side on the prism side. That is, the size of the image detected by the camera module 150 may be adjusted by adjusting the positions of the convex lens and the concave lens. Accordingly, the convex lens 121 is connected to the convex lens shift gear 131 and the concave lens 122 is connected to the concave lens shift gear 132. The lens shift gears 131 and 132 are worm gears and are driven in connection with the driving motor 140.

Hereinafter, a process of implementing a zoom function of a mobile communication terminal according to the present invention will be described with reference to FIGS. 3A to 4.

3A to 3D are conceptual views illustrating a process of implementing a zoom function of a mobile communication terminal having a camera having an optical zoom function according to the present invention, and FIG. 4 is a view having a camera having an optical zoom function according to the present invention. It is a conceptual diagram showing the relationship between the thread pitch for the movement of the optical lens unit of the mobile communication terminal.

3A to 3D, a is a symbol representing the distance between the incident surface of light and the convex lens in the initial state, b is a symbol representing the distance between the convex lens and the concave lens in the initial state, and c is concave in the initial state. This symbol indicates the distance between the lens and the camera. That is, FIG. 3A illustrates the arrangement of the convex lens 121 and the concave lens 122 in the initial state, and is precisely focused in the camera module 150.

Then, in order to enlarge the image, the position of the lens should be changed. If the lens moves to the camera module side and the focal length is shortened, the image is enlarged. Therefore, first, the concave lens 122 moves to the camera module side as shown in Fig. 3B. The moving distance of the concave lens at this time is indicated by e. In this case, since the position of the convex lens 121 does not change, the focal length of the concave lens is shortened, and the focal length of the concave lens 122 at this time is referred to as f. Therefore, the image is not formed in the camera module 150, and the image is formed in front of the camera module by g. In order to correct this focus, the distance between the convex lens 121 and the concave lens 122 should be moved by g to both sides of the camera module.

As a result, as shown in FIG. 3C, the convex lens 121 is positioned at a distance of a + g from the incident surface, and the concave lens 122 is convex lens 121 in order to enlarge and form an image on the camera module 150. ) And b + e, and the distance between the concave lens 122 and the camera module 150 should be f, the focal length. That is, as shown in FIG. 3D, when the convex lens 121 moves toward the camera module by g from the initial position and the concave lens 122 moves by e + g from the initial position, the image is enlarged in the camera module than the initial state. Will be able to bear.

In order to move the lens in the above-described process, each lens may be driven individually, but driving each lens is not preferable in a small mobile communication terminal because the precision of movement is lowered and a motor or the like must be placed. Therefore, it is preferable to move the convex lens 121 and the concave lens 122 together at a predetermined ratio. That is, it is preferable to drive by one motor by adjusting the pitch of the moving gear 131 connected to the convex lens and the moving gear 132 connected to the concave lens. That is, the motor 140 and the convex lens shift gear 131 are connected, and the convex lens shift gear 131 and the concave lens shift gear 132 are engaged to rotate.

As for the pitch of such a gear, as shown in Fig. 4, the pitch of the convex lens shift gear versus the pitch of the concave lens shift gear is set to g: e + g. In Fig. 4, the pitch of the convex lens shift gear 131 is set to g / X, and the pitch of the concave lens shift gear 132 is set to (e + g) / X. In this case, X is a ratio with respect to the moving distance of the drive motor. That is, if X is 4, the convex lens moves by g when the motor is turned four times. If X is 10, the convex lens moves by g when the motor is turned ten times.

5 is a block diagram showing an embodiment of a mobile communication terminal having a camera having an optical zoom function according to the present invention.

That is, the camera module 150 is connected to the memory 160 and the mobile station modem (MSM) 180, the memory 160 is connected to the motor controller 170, and the motor controller 170 is connected to the motor 140. ). That is, the MSM 180 continuously transmits the image signal of the camera module to the display unit (not shown), and when the user presses the zoom button, the MSM 180 transmits the signal to the memory 160. This signal is transmitted to the motor controller 170. Therefore, the motor 140 rotates under the control of the motor controller 170 to rotate the convex lens shift gear 131 and the concave lens shift gear 132 to convex connected to the gears 131 and 132 and a worm gear. The lens 121 and the concave lens 122 are rotated.

Hereinafter, the operational effects of the mobile communication terminal having a zoom function according to the present invention configured as described above will be described.

In the present invention, since the light traveling direction can be changed at right angles using a prism, the light mining parts 111 and 112 and the camera module do not need to be placed in a straight line, and the light traveling path can be set in the horizontal direction of the terminal case. Since the optical zoom function is implemented, the thickness of the terminal does not become thick, and the distance between the lenses is longer than that of the module, thereby obtaining a higher magnification than the zoom function of the conventional terminal.

In addition, by setting the pitch of the convex lens shift gear 131 and the concave lens shift gear 132 to a predetermined ratio and driving them together, the concave lens and the convex lens can be moved at once, so that the lens can be precisely moved and the volume It can reduce, and the correction of focus is also easy.

In addition, since the prism or the reflector can be rotated so that the light direction can be implemented on both sides, both the front and the rear of the terminal can be photographed. That is, the prism or the reflector may reflect the light entering the one side light part 111 toward the camera module, and may rotate 90 degrees to reflect the light entering the other side light part 112 toward the camera module. .

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the field of the present invention that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

As described above, according to the present invention, by providing a prism or a reflector in a mobile communication terminal having a camera, the light can be advanced in the horizontal direction of the terminal, and a lens and a camera module can be installed, thereby enabling a compact and high magnification. It has an effect.

Claims (8)

A case of the terminal; A light unit formed in the case; A lens unit including at least one lens and reflecting means for reflecting light incident to the light at a right angle; A gear unit for adjusting a lens position of the lens unit; A motor unit for adjusting the gear unit; Control means for controlling the motor unit; And Camera module for digitizing the image provided through the lens unit Mobile communication terminal having a camera comprising a. The method of claim 1, The skylights are formed at both sides of the terminal case; The reflecting means may be rotated by the drive gears to selectively reflect the light of one side of the two light mining parts to the camera module. Mobile communication terminal with a camera. The method of claim 1, The reflecting means of the lens unit is a prism of right triangle shape. Mobile communication terminal with a camera. The method of claim 1,  The reflecting means of the lens unit is a reflecting mirror reflecting the light of the light portion to the camera module Mobile communication terminal with a camera. The method of claim 1, The lens of the lens unit A convex lens disposed on the side of the skylight; And A concave lens disposed between the convex lens and the camera module Mobile communication terminal having a camera comprising a. The method of claim 5, The motor unit Drive motor; A convex lens shift gear connected to the driving motor, the convex lens shift gear configured to move a convex lens; And Concave lens shift gear consisting of a worm gear that meshes with the convex lens shift gear and moves the concave lens. Mobile communication terminal having a camera comprising a. The method of claim 6, When zooming in to obtain an image with a changed size, Changing the magnification of the image by changing the distance between the convex lens and the concave lens to adjust the focal length of the concave lens; While keeping the distance between the convex lens and the concave lens, the convex lens and the concave lens moves so that the focus of the concave lens is formed on the camera module. Mobile communication terminal with a camera. The method of claim 7, wherein When the changed distance between the convex lens and the concave lens is e, and the difference between the changed focal lengths of the concave lens is g, The ratio of the pitch of the convex lens shift gear and the pitch of the concave lens shift gear is g: e + g so that the concave lens moves by e + g when the convex lens moves by g. Mobile communication terminal with a camera.

Images