KR101049572B1 - Dual Camera Module - Google Patents

Abstract

The present invention discloses an antenna combined camera module. An antenna combined camera module according to the present invention comprises: a housing; A lens unit movably installed in the housing; An imaging unit for capturing an image passing through the lens unit; And an elastic antenna that couples the lens unit to the housing and is made of a conductor, has an elastic force, and receives radio waves.

Description

Camera module for both antennas {camera module for antenna}

1 is a perspective view of a dual-camera camera module according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of the dual camera module of FIG.

3 and 4 are cross-sectional views showing the operation of the elastic antenna in the camera module with an antenna.

Description of the Related Art

110. Housing 120. Lens section

130. Driving part 140. Imaging part

150..Elastic antenna 160..Mainboard

161..Feed part

The present invention relates to an antenna combined camera module, and more particularly, to an antenna combined camera module used for receiving radio waves used in a communication terminal and photographing a subject.

In general, an antenna mounted on a communication terminal is for receiving radio waves in the air. Such antennas tend to change from an external antenna to an internal antenna disposed inside the communication terminal in order to enhance the appearance of the communication terminal and to obtain additional frequency diversity. Such a built-in antenna has been changed in shape in accordance with the trend toward miniaturization and slimming of communication terminals. That is, the size or thickness of the built-in antenna is made thinner and placed on the main board of the communication terminal.

Meanwhile, in order to reduce the size of the communication terminal, the size of the main board on which the antenna is disposed should be reduced, and in order to reduce the size of the main board, the size of the built-in antenna should be reduced. However, since the frequency to be received by the communication terminal is defined as a standard, and the length of the built-in antenna for receiving such a standardized frequency is usually proportional to the wavelength of the frequency, the length of the antenna cannot be reduced below a predetermined length.

It is an object of the present invention to provide an antenna combined camera module having an improved structure to integrate a camera module and an antenna.

Accordingly, an antenna combined camera module according to the present invention comprises: a housing; A lens unit movably installed in the housing; An imaging unit to capture an image passing through the lens unit; And an elastic antenna that couples the lens unit to the housing and is made of a conductor, has an elastic force, and receives radio waves.

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

1 is a perspective view of a dual-camera camera module according to an embodiment of the present invention. Referring to FIG. 1, the dual camera module 100 includes a housing 110, a lens unit 120, a driving unit 130, an imaging unit 140, and an elastic antenna 150.

The housing 110 forms an outer appearance of the camera module 100 for an antenna, and a predetermined space is provided.

The lens unit 120 passes an image of a subject and is installed in the housing 110 so as to be movable upward or downward. Here, upward or downward is collinear with the direction in which the image of the subject enters through the lens unit 120. The conventional lens unit 120 includes one or more lenses to focus the subject or have an optical zoom function. The driving mechanism such as focus control or optical zoom of the lens unit 120 is already shown technology. For example, the lens unit 120 is provided with one or more lens groups composed of a plurality of lenses. When each lens group is driven by the driver 130 to be described later, the focus may be controlled or the optical zoom may be performed.

The driving unit 130 moves the lens unit 120 upward or downward by generating power so that the subject is focused or optically zoomed by the lens unit 120. To this end, the driving unit 130 may use any one that can drive the lens unit 120 up and down, such as a voice coil motor (VCM), a stepping motor, and a general rotary motor. On the other hand, in the present invention will be described using a voice coil motor as an example of a mechanical device used in the drive unit 130.

The voice coil motor includes a coil 131 and a permanent magnet 132. The coil 131 is a form in which a highly conductive metal wire such as copper is wound several times on a predetermined member. One or more coils 131 are disposed along the outer side of the lens unit 120 to have a polarity when electricity flows through the coil 131 and generate an electromagnetic force toward the center of the lens unit 120 or the housing 110. Done.

The permanent magnet 132 is disposed in the housing 110 so as to correspond to the coil 131, and is disposed to have different polarities in up and down directions. That is, the permanent magnet 132 is disposed on one surface of the housing 110 with a small clearance from the coil 131 disposed on the lens unit 120. Such a permanent magnet 132 has a property of N pole or S pole at both ends.

Referring to FIGS. 3 and 4, an operation process of the driver 130 will be described below. 3 is a state in which the lens unit 120 has no external force acting on the housing 110, and the permanent magnet 132 is arranged in parallel with the N pole and the S pole from the lower side of the housing 110. In this state, when electricity flows through the coil 131 to move the lens unit 120 to perform optical zoom, the coil 131 has N pole magnetic properties. As shown in FIG. 4, the N pole of the permanent magnet 132 disposed adjacent to the coil 131 has a repulsive force acting on the coil 131 having N polarity, and the S pole of the permanent magnet 132 is a coil. An attraction force acts on the N pole of 131, and the driving unit 130 moves the lens unit 120 upward with respect to the housing 110.

The imaging unit 140 captures an image passing through the lens unit 120. The imaging unit 140 captures an image passing through the lens unit 120 and converts the image into image data, and converts the captured image data by a conversion unit (not shown). The imaging unit 140 may include a charge-coupled device (CCD) or a complementary metal oxide semiconductor (CMOS) to form an image refracted and cropped through the lens unit 120. Imaging elements such as these can be arranged. Such an image pickup device is not limited to a charge coupling device or a complementary metal oxide semiconductor, and may be any electronic component capable of converting an image composed of light into electrical image data.

The elastic antenna 150 is disposed to elastically support the housing 110 and the lens unit 120. Therefore, the lens unit 120 may be restored to its original position in the state where power is not transmitted from the driving unit 130 to the lens unit 120. On the other hand, the driving unit 130 may move the lens unit 120 in the up, down direction. Alternatively, since the driving unit 130 may move the lens unit 120 only in one of the up and down directions, the driving unit 130 may move the lens unit 120 to the original position so that the lens unit 120 is restored to its original position. ) Is preferably formed by a spring.

In addition, the elastic antenna 150 may use the coil 131 of the driving unit 130 as a loop antenna. The loop antenna is a round wire that is wound many times. These loop antennas have a very large deterministic orientation, which is why they are used in most radio direction detection devices. Conventional coils are also formed in the form of winding several times in a circular shape may serve as a loop antenna, for this purpose, the coil 131 is preferably electrically connected to the feeder, and the coil of the drive unit 130 is an elastic antenna It is preferred to use 150 as the impedance matching inductor.

The elastic antenna 150 may be an active antenna in which active elements such as transistors, tunnels, diodes, varactors, and the like are disposed. By arranging components to amplify the signal in the elastic antenna 150 as an active antenna, it is possible to save the space occupied by the active elements on the motherboard 160 rather than using the antenna as an active antenna on the motherboard 160. It can be effective to utilize the space of the motherboard 160 effectively. Since the elastic antenna 150 is an active antenna, a detailed description thereof will be omitted.

Meanwhile, as shown in FIG. 1, the elastic antenna 150 is illustrated as a leaf spring, but this is merely an example. After driving the lens unit 120 upward or downward by the driving unit 130 to be described later, Any member may be used as long as it is an elastic member that can be restored to its original position. However, since the elastic antenna 150 also serves as an antenna, the elastic antenna 150 may be formed to have a predetermined length or more in proportion to the wavelength of the frequency capable of receiving the length of the elastic antenna 150. Briefly, the driving unit 130 is a device that generates power of the driving unit 130, and moves the lens unit 120 with respect to the housing 110 so that the subject can be focused or optically zoomed.

Meanwhile, as shown in FIG. 2, the elastic antenna 150 is disposed above and below the lens unit 120. However, this is merely an example, and the elastic antenna 150 is not necessarily disposed on both the upper side and the lower side of the lens unit 120, and disposed only on the upper side or the lower side of the lens unit 120, or only at the center of the lens unit 120. You can also place it. However, it is preferable that the lens unit 120 is disposed to move smoothly in the housing 110.

Meanwhile, as shown in FIG. 1, in a state where the elastic antenna 150 is disposed between the housing 110 and the lens unit 120, the elastic antenna 150 is disposed on the main board 160 by a conductive line 111 having a predetermined length. It is electrically coupled to the feeding section 161. The power supply unit 161 smoothly supplies electricity to the elastic antenna 150 to cause the elastic antenna 150 to resonate by radio waves radiated from a base station not shown.

In the dual-antenna camera module 100 configured as described above, the operation of the dual-antenna camera module 100 will be described in detail with reference to FIGS. 3 and 4.

First, a process in which the elastic antenna 150 operates as an antenna of a communication terminal is as follows. When the elastic antenna 150 transmits and receives radio waves. The feeder 161 activates the elastic antenna 150 by supplying electricity to the elastic antenna 150. When the elastic antenna 150 emits a radio wave having the same resonant frequency band as the elastic antenna 150 from the base station not shown, the elastic antenna 150 is resonated by the radio wave to receive the radio wave. At this time, the data contained in the received radio wave is transmitted to the motherboard (160). On the other hand, since the plurality of elastic antennas 150 may be disposed between the housing 110 and the lens unit 120, a plurality of elastic antennas 150 may be connected to each other and used as an antenna. In addition, as long as the elastic antenna 150 can maintain the elastic force, the length of the elastic antenna 150 can also be changed. Thus the number and length of the elastic antenna 150 can be arranged according to the manufacturer's intention, there is an effect that can easily receive the desired frequency to receive.

Unlike this, a process in which the elastic antenna 150 operates as an elastic body of the camera module 100 is as follows. The movement of the lens unit 120 by the driving of the driving unit 130 during the operation of the driving unit 130 has been described in detail. As shown in FIG. 4, when the user drives the driving unit 130 to focus on the subject and focuses the subject by moving the lens unit 120 upward, the coil 131 of the driving unit 130 is focused. No electricity flows into the Then, the elastic antenna 150 is a state in which elastic energy is accumulated by the movement of the lens unit 120, the elastic antenna 150 is a spring relative to the housing 110 because of the nature of returning to its original shape Move 120 to its original position.

Area for installing the antenna on the main board 160 by activating the elastic antenna 150 used to elastically support the lens unit 120 and the housing 110 as described above, as an antenna for transmitting and receiving radio waves Does not require a separate, there is an effect that the internal space efficiency of the motherboard 160 is improved.

As described above, the dual-camera camera module according to the present invention can reduce the volume and the area occupied by the antenna than the state in which the camera module and the antenna are separated by using the elastic antenna as an antenna, thereby effectively reducing the space inside the communication device. There is an effect that can be utilized.

In addition, the length and quantity of the elastic antenna can be arranged in accordance with the intention of the manufacturer, there is an effect that can easily receive the desired frequency to receive.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and any person skilled in the art to which the present invention pertains may have various modifications and equivalent other embodiments. Will understand. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (6)

housing; A lens unit installed to be elevated in the housing; An imaging unit to capture an image passing through the lens unit; And The lens unit is elastically coupled to the housing so that the lens unit can be restored to its initial position even when the lens unit is moved by an external force, and is formed over a specific length in proportion to the wavelength of the frequency that can be received. Combined antenna module, characterized in that provided; The method of claim 1, The elastic antenna is an antenna combined camera module, characterized in that formed by a leaf spring. The method of claim 1, Further comprising a drive unit for moving the lens unit in a predetermined direction with respect to the housing, And the driving unit moves the lens unit to adjust the focus of the subject or to perform optical zoom. The method of claim 3, The driving unit includes a coil, The elastic antenna is a dual-camera camera module, characterized in that for using the coil of the drive unit as a loop antenna (Loop antenna). The method of claim 3, The elastic antenna is a dual-camera camera module, characterized in that for using the coil of the drive unit as an impedance matching inductor (inductor). The method of claim 1, And the elastic antenna is an active antenna.

Images