KR20100093836A - Optical joystick module and manufacture method thereof - Google Patents

Abstract

PURPOSE: An optical joystick module and a manufacture method thereof are provided to supply a supporter effect and protect components from an external shock by additionally mounting a rigid PCB on the side opposite to the side on which components are mounted. CONSTITUTION: A rigid PCB(Printed Circuit Board)(30) is mounted to an FPCB(Flexible Printed Circuit Board)(20) through an SMT(Surface Mounting Technology) process. An optical joystick(10) is mounted to the opposite of the rigid PCB around the FPCB. The rigid PCB comprises a dome switch(40).

Description

Optical joystick module and its manufacturing method {OPTICAL JOYSTICK MODULE AND MANUFACTURE METHOD THEREOF}

The present invention relates to an optical joystick module and a method of manufacturing the same which can reduce the thickness and reduce the manufacturing cost by improving the structure of the optical joystick module.

In general, the optical joystick module is installed in the portable terminal so as to select a desired icon and menu by controlling a cursor generated on the display screen.

The optical joystick module is configured with an optical joystick 10 as shown in FIGS. 1 and 2. The light joystick 10 includes a light source 11, an image sensor 12 for detecting an optical signal, an optical guide 13 for guiding light to the image sensor 12, and a holder 14 for supporting the light guide 13. And a housing 15 accommodating them therein.

In this case, the upper surface of the housing 15 has a flat plate shape, and a contact surface 16 is formed to contact a subject P such as a finger to operate the mobile terminal. The image sensor 12 is a printed circuit for processing an input signal. It is provided on a substrate (not shown).

Accordingly, when the finger, which is the subject P, is moved to the contact surface 16, the optical signal input to the image sensor 12 is changed according to the movement of the finger so that the portable terminal can be operated.

In detail, when the object P such as a finger contacts the contact surface 16, the light emitted from the light source 11 is reflected by the object and is captured by the image sensor 12 through the light guide 13. .

On the contrary, when the subject P is not in contact with the contact surface 16, the light emitted from the light source 11 passes through the housing 15 and is irradiated to the outside of the housing 15.

Here, when the subject P in contact with the contact surface 16 moves, the object P is changed into an optical signal that is reflected by the subject P and sensed by the image sensor 12.

At this time, the optical signal detected by the image sensor 12 is processed by a microcomputer (not shown) having an image processor (not shown), so that the movement or input of the cursor according to the movement of the subject P on the display screen of the mobile terminal is input. The content of the information is displayed.

On the other hand, the optical joystick 10 is provided with a printed circuit board. The printed circuit board includes a flexible printed circuit board 20 and a rigid printed circuit board 30.

The flexible printed circuit board 20 is coupled so that the tip is inserted between the rigid printed circuit board 30 formed of a pair of upper and lower sides, and a connector 50 for connecting to another module is configured on the opposite side.

The dome switch 40 is formed on the bottom of the rigid printed circuit board 30 installed in the optical joystick 10 to generate an electrical signal when the optical joystick 10 is pressed.

Here, the optical joystick module is mounted through the epoxy in the interlayer configuration.

Since the optical joystick module is manufactured in a state where the trend of portable terminals is recently released, the optical joystick module is also required to be slimmed.

However, in the conventional optical joystick module, the image sensor, the optical guide, and the light source composed of the optical joystick are manufactured to the minimum thickness to which the light can move, so in order to reduce the thickness of the entire optical joystick module, the thickness of the printed circuit board except for these should be reduced. do. Therefore, the printed circuit board should be configured to maintain the minimum thickness, but since the rigid printed circuit board is bonded to both sides of the flexible printed circuit board, there is a limit to lower the thickness of the entire module. As a result, the manufacturing process is complicated and the cost is increased.

As such, there is a limitation in reducing the thickness of the module, which makes it difficult to achieve ultra-slim, and there is a problem of falling behind the price competitiveness due to the increase in manufacturing cost.

The present invention has been made in view of the above problems, to provide an optical joystick module and its manufacturing method which can minimize the overall thickness of the module.

Another object of the present invention is to provide an optical joystick module and a method of manufacturing the same, which simplify manufacturing processes and reduce manufacturing costs.

The present invention can freely mount a rigid printed circuit board on the opposite side of the component mounted on the module to protect the component from external shock transmitted with the support effect, to minimize the overall thickness of the module or to adjust arbitrarily In addition, there is an effect of reducing the manufacturing cost by simplifying the manufacturing process.

The present invention for achieving the above object is provided with a flexible printed circuit board; Mounting a rigid printed circuit board on the flexible printed circuit board by an SMT process; And mounting an optical joystick on the opposite side of the rigid printed circuit board with respect to the flexible printed circuit board.

Providing a flexible printed circuit board; Mounting a rigid printed circuit board on the flexible printed circuit board by an SMT process; Mounting an optical joystick on the opposite side of the rigid printed circuit board with respect to the flexible printed circuit board; And forming a dome switch on the rigid printed circuit board.

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

3 is an exploded perspective view of an optical joystick module according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the combination of the optical joystick module according to an embodiment of the present invention.

First, the optical joystick module of the present invention is composed of an optical joystick 10 and a printed circuit board.

The light joystick 10 includes a light source 11, an image sensor 12 for sensing an optical signal, an optical guide 13 for guiding light to the image sensor 12, and a holder 14 for supporting the light guide 13. ) And a housing 15 accommodating them therein.

The upper surface of the housing 15 has a flat plate shape, and a contact surface 16 on which a subject such as a finger is in contact is formed to operate the mobile terminal, and the image sensor 12 is a printed circuit board (not shown) for processing input signals. It is provided on the phase.

As a result, when the finger, which is the subject P, is moved to the contact surface 16, the optical signal input to the image sensor 12 changes according to the movement of the finger, and thus the mobile terminal may be operated according to the movement of the finger.

In more detail, when the subject P, such as a finger, contacts the contact surface 16, the light emitted from the light source 11 hits the subject P, is reflected, and then passes through the light guide 13 to the image sensor 12. The images are taken continuously at.

On the contrary, when the subject P is not in contact with the contact surface 16, the light emitted from the light source 11 passes through the housing 15 and is irradiated to the outside of the housing 15.

The image screen captured by the image sensor 12 is calculated as a displacement value according to the change of the image screen, and the calculated displacement value is transmitted to the microcomputer (not shown), thereby moving the subject P on the display screen of the mobile terminal. The movement of the cursor or the content of the input information may be displayed, a letter and / or number may be input to the portable terminal, or a content menu desired by the user may be selected.

The optical joystick 10 configured as described above is provided with a printed circuit board. The printed circuit board includes a flexible printed circuit board 20 and a rigid printed circuit board 30.

The flexible printed circuit board 20 may be made of one of polyimide and polyester as a material having less flexibility.

The rigid printed circuit board 30 is mounted on one surface of the flexible printed circuit board 20 through an SMT process.

In this case, the rigid printed circuit board 30 may be formed in various thicknesses. If the thickness of the rigid printed circuit board 30 is configured in various ways, the thickness of the entire module can be easily adjusted according to product specifications.

For example, if the thickness of the module is larger than the thickness required in the product by about 0.3mm, the module may be manufactured by manufacturing the rigid printed circuit board 30 formed in the module by about 0.3mm.

After the rigid printed circuit board 30 is mounted on the flexible printed circuit board 20, the optical joystick 10 is mounted on an opposite surface of the flexible printed circuit board 20 on which the rigid printed circuit board 30 is mounted.

In the present embodiment, the optical joystick 10 is mounted on the flexible printed circuit board 20, but various electronic components may be mounted without being limited thereto. For example, a CSP sensor may be mounted, or an LED light which is a light source may be mounted.

 When the optical joystick 10 is mounted in this way, the dome switch 40 is installed on the rigid printed circuit board 30. The dome switch 40 may employ any one according to the designer's intention, such as a circle or a square, and is installed in a size capable of covering the bottom surface of the rigid printed circuit board 30 as much as possible.

In addition, the connector 50 may be mounted on the flexible printed circuit board 20 before the rigid printed circuit board 30 is installed or after the dome switch 40 is installed. The connector 50 is provided for connection with other modules.

Hereinafter, the operation of the optical joystick module according to the embodiment of the present invention will be described.

First, when the subject P presses the upper surface of the housing 15 of the optical joystick 10, the flexible printed circuit board 20, the rigid printed circuit board 30, and the dome switch 40 are simultaneously lowered.

Then, the curved portion of the dome switch 40 is pressed by a protrusion (not shown) formed in the portable terminal panel to make an electrical connection.

In this process, both ends of the holder 14, the printed circuit board (not shown), and the housing 15 installed in the optical joystick 10 generate a repulsive force as opposed to the pressing force of the user.

At this time, since the dome switch 40 is installed in such a size as to cover the bottom surface of the rigid printed circuit board 30 as much as possible, the repulsive force due to the pressing force of the flexible and rigid printed circuit board, the holder 14 and the housing 15 is reduced. It is possible to minimize the repulsive force by dispersing at the bottom of the whole without focusing at both ends.

Therefore, the optical joystick module according to the present invention can have sufficient durability even when the rigid printed circuit board 30 is not configured on both sides of the flexible printed circuit board 20, and at the same time, the thickness of the entire module can be reduced and the manufacturing cost can be reduced. Can be.

Although the optical joystick module and the manufacturing method according to the embodiment of the present invention have been described above, the present invention is not limited thereto, and those skilled in the art can of course apply and modify them.

Figure 3 is an exploded perspective view of the optical joystick module according to an embodiment of the present invention.

4 is a cross-sectional view of the optical joystick module in accordance with an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: light joystick 20: flexible printed circuit board

30: rigid printed circuit board 40: dome switch

50: Connector

Claims (4)

Providing a flexible printed circuit board; Mounting a rigid printed circuit board on the flexible printed circuit board by an SMT process; And mounting an optical joystick on the opposite side of the rigid printed circuit board with respect to the flexible printed circuit board. The method of claim 1, And a dome switch is formed on the rigid printed circuit board. Providing a flexible printed circuit board; Mounting a rigid printed circuit board on the flexible printed circuit board by an SMT process; Mounting an optical joystick on the opposite side of the rigid printed circuit board with respect to the flexible printed circuit board; And Forming a dome switch on the rigid printed circuit board; Optical joystick module manufacturing method comprising a. Optical joystick module manufactured by any one of claims 1 to 3.

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