KR100952441B1 - Shutter device - Google Patents

Abstract

The shutter device includes a base, two electromagnetic valves, two blades, and a cover plate. The first light hole is formed in the center of the base. The electromagnetic valve includes a magnetic core, a coil unit, and a magnetic part. The magnetic core and the coil unit are provided symmetrically in the axial direction on the outer periphery of the first light hole of the base on the base. The blade is connected with a corresponding magnetic portion of the electromagnetic valve, each blade being free to move between the first position and the second position to open or close the first light hole through which the light beam passes. The cover plate is assembled on the base and provided with a second light hole corresponding to the first light hole. Two magnetic cores are disposed on the outer periphery of the first light hole symmetrically in the axial direction on the base.

Shutter device, electromagnetic valve, blade, magnetic core, coil unit, magnetic part, light hole

Description

Shutter Device {SHUTTER DEVICE}

The present invention relates to a shutter device, and more particularly to a shutter device of a photo module provided in a handheld mobile device or a portable computer device.

Recently, photo modules provided in mobile phones, PDAs, such as handheld mobile devices, laptop PCs, or other portable computer devices have been widely used. In connection with such handheld mobile devices, the consumer market requires smaller physical volumes, which in turn requires higher photo resolutions and reduced volumes in the photo module. Prior art photo modules provided in handheld mobile devices or portable computers include two types of common photo sensors, charge-coupled devices (CCDs) or complementary metal-oxide semiconductors (CMOS). It contains either.

In the photo module as described above, in order to solve the problems found in the exposure process of an image, a shutter device of the prior art is provided, and the operating principle of such a shutter device is as follows. For example, two shutter blades are provided in the CCD or CMOS to open or close the front light path, and electromagnetic valves (also called electromagnetic actuators) are used to operate these shutter blades. In the still mode of the camera, after the electromagnetic valve is energized, an electromagnetic action is caused to control the opening / closing operation of the shutter blade, thereby controlling whether light is incident on the optical sensor for achieving exposure control. As an example, a shutter device operating on this principle is disclosed in Chinese patent CN1503046A.

However, with the pursuit of thin, compact products in today's consumer market, the effective space of components inside a handheld mobile device or portable computer is gradually decreasing, and therefore, photo modules are required to be smaller. Shutter devices also need to be miniaturized while adopting thin physical volumes. Therefore, designing a compact thin shutter device with a functional requirement that meets the manufacturer's wishes is an objective and task for researchers and manufacturers in the relevant field to perform.

Accordingly, in view of the technical deficiencies as described above, the applicant of the present invention has continued to experiment and research to develop the present invention that can effectively improve such defects.

It is an object of the present invention to provide a compact thin shutter device.

According to a feature of the invention, the first light hole is formed in the center; Two electromagnetic valves each comprising a magnetic core having two ends formed therein, a coil unit wound around the magnetic core, and a magnetic part rotatably provided on the base, the magnetic core of the two electromagnetic valves And the coil unit are provided symmetrically on the base on the outer periphery of the first light hole of the base, one of the ends of the magnetic core of each electromagnetic valve corresponding to the magnetic portion of the associated electromagnetic valve, the magnetic core of each electromagnetic valve The other end of the two electromagnetic valves corresponds to the magnetic portion of the other electromagnetic valve; Two blades connected in one with a corresponding magnetic portion of the electromagnetic valve, the two blades being free to move between the first position and the second position to open or close the first light hole through which the light beams pass; And a second light hole connected to the base, the second light hole corresponding to the first light hole of the base, and including a cover plate provided such that each blade is disposed between the base and the base. The magnetic core and coil unit of the two electromagnetic valves are used to generate an electromagnetic field. These two electromagnetic fields and the magnetic forces generated by the magnetic portions of the two electromagnetic valves interact with each other to produce two electromagnetic thrusts together. By these two electromagnetic thrusts pushing and moving the magnetic portions of the two electromagnetic valves, the two blades can move between the first position and the second position to open or close the first light hole through which the light beam passes.

In connection with the advantages of the present invention, the two magnetic cores are arranged around the outer circumference of the first light hole symmetrically on the base. According to this configuration, the shutter device of the present invention can be reduced in physical volume to achieve the miniaturization object.

In addition, in the present invention, the two electromagnetic valves may operate to push the two blades when the electricity is in operation. In other words, when only one electromagnetic valve is energized, the associated blades cannot move, preventing the lack of expected exposure. This is because the blades move individually when only one electromagnetic valve is energized.

In addition, the two magnetic cores are apparently symmetrical members. When the two electromagnetic valves are energized, a uniform electromagnetic thrust is generated so that the two blades move synchronously to prevent the exposure time from being affected because one shutter is fast and the other shutter is slow.

In order to better understand the technical means and effects employed to achieve the above objects of the present invention, reference is made to the detailed description and accompanying drawings in accordance with the present invention. The objects, features and gist of the present invention will become apparent upon reading the following description. However, the accompanying drawings are provided for reference and illustration only and are not intended to limit the scope and scope of the present invention.

The invention is described in more detail with reference to the embodiments described below. It should be noted that the following description of the preferred embodiments of the present invention is given herein for purposes of illustration and description only, and is not limited to the exact form that is disclosed.

1 to 4, the shutter device according to the present invention is provided in a photo module of a handheld mobile device or a portable computer device. This shutter device comprises a base 1, two electromagnetic valves 2a and 2b, two blades 3 and a cover plate 4.

The base 1 is in the form of a cube, and a first light hole 11 is formed in the center thereof. The base 1 also has two cavities 12 formed on two opposite sides of the base 1. Pivot pillars 13 protrude from the bottom wall of each cavity 12. In addition, a plurality of fixing pillars 14 are provided on the upper surface of the base, and two receiving grooves 15 are formed at the outer circumference of the first light hole 11 symmetrically at two diagonal edges of the base 1. ) May be formed.

The two electromagnetic valves 2a and 2b respectively include magnetic cores 21a and 21b, coil units 22a and 22b and magnetic portions 23a and 23b. The coil units 22a and 22b are wound around the magnetic cores 21a and 21b, and the two ends 211a and 211b of the magnetic cores 21a and 21b serve as yokes of the magnet. Preferably, the magnetic cores 21a, 21b of the two electromagnetic valves 2a, 2b are apparently symmetrical members. In the present invention, the two magnetic cores 21a and 21b are each formed generally L-shaped. The magnetic parts 23a and 23b of the two electromagnetic valves 2a and 2b are cylindrical natural magnets, and pivot holes 231a and 231b are formed in the respective magnetic parts 23a and 23b. Of course, the two magnetic portions 23a and 23b may also be formed in the form of other cylindrical magnetic portions.

The two blades 3 are symmetrical plates, each comprising a circular base 31, a link arm 32 extending from the base 31, and a cover 33 connected to the link arm 32.

The cover plate 4 is a thin plate (lamella) shaped part, the second light hole 41 is formed in the center thereof, the plurality of fixing holes 42 and the outer peripheral portion of the second light hole 41 The through hole 43 is formed.

In the present invention, the shutter device may also include a spacer 5, and a third light hole 51 is formed in the center of the spacer.

The magnetic parts 23a, 23b of the two electromagnetic valves 2a, 2b may be provided to be rotatable in the corresponding cavities 12 of the base 1. The pivot pillar 13 is formed to pivot in the pivot holes 231a and 231b, allowing the magnetic portions 23a and 23b to rotate on the base 1. The magnetic cores 21a and 21b of the two electromagnetic valves 2a and 2b and the coil units 22a and 22b are provided on the outer circumference of the first light hole 11 of the base 1 symmetrically on the base 1. It is. Preferably, the magnetic cores 21a, 21b and the coil units 22a, 22b are provided symmetrically at diagonally opposite corners on the base 1 and received in the corresponding grooves 15 of the base 1.

The ends 211a, 211b of the magnetic cores 21a, 21b of the electromagnetic valves 2a, 2b correspond to the magnetic parts 23a, 23b of the associated electromagnetic valves 2a, 2b, respectively. That is, as shown in FIG. 5, the magnetic portions 23a and 23b correspond to the ends 211a and 211b of the two magnetic cores 21a and 21b.

The two blades 3 are linked with the corresponding magnetic parts 23a, 23b of the electromagnetic valves 2a, 2b so that the magnetic parts 23a, 23b and the two blades 3 can rotate synchronously with each other. Make sure The rotating magnetic parts 23a and 23b can move freely between the first position and the second position so as to open or close the first light hole 11 through which light rays pass. In the present invention, the two blades (3) so that the cover portion 33 of the two blades (3) can move freely between the first position and the second position to open or close the first light hole 11 through which the light beam passes ( The base 31 of 3) is attached to and fixed to the corresponding magnetic portions 23a and 23b. Of course, as another designable configuration, the magnetic portions 23a and 23b and the blade 3 may operate in a rotational relationship with each other.

The cover plate 4 is incorporated in the base 1. Each rivet hole 42 of the cover plate 4 can be used to secure the cover plate 4 to the base 4 in association with the corresponding rivet column 14 of the base 1. Each blade 3 is disposed between the cover plate 4 and the base 1, with the second light hole 41 of the cover plate 4 being the first light hole 11 of the base 1. It corresponds to. The end of the pivot column 13 of the base 1 may extend into the corresponding through hole 43 of the cover plate 4. The components as described above are installed and coupled to the base 1. Of course, other members and functional parts may be installed as desired, but the present invention is not limited to these members and parts.

The spacer 5 is provided between the two blades 3, as shown in FIG. 4, to serve to separate the two blades 3 from one another up and down. The third light hole 51 of the spacer 5 corresponds to the first light hole 11 of the base 1 and the second light hole 41 of the cover plate 4. Form an optical path.

Therefore, in the present invention, the cooperative action of the two electromagnetic valves 2a and 2b and the two blades 3 is described below. When electricity is applied to the coil units 22a and 22b of the two electromagnetic valves 2a and 2b, the two coil units 22a and 22b work with the two magnetic cores 21a and 21b to generate an electromagnetic field. The magnetic parts 23a and 23b of the two electromagnetic valves and the magnetic forces generated by the two electromagnetic fields interact with each other to produce two electromagnetic thrusts together. These two electromagnetic thrusts act in common to push the magnetic portions 23a and 23b of the two electromagnetic valves 2a and 2b to move and drive the two blades 3, thereby covering the cover portions of the two blades 3. Allow 33 to move between the first and second positions to open or close the first light hole 11 through which light rays pass.

In the following, reference is made to FIGS. 5 and 6. According to Ampere's right hand rule, when the two coil units 22a and 22b are electrically energized, the coil units 22a and 22b and the magnetic cores 21a and 21b are N by positive and negative DC voltages. The magnetic fields of the poles and the S poles are generated, and the N poles and the S poles of the magnetic portions 23a and 23b interact with each other to generate electromagnetic thrust so that the two magnetic portions 23a and 23b are clockwise or counterclockwise. Will move clockwise. Therefore, as long as the positive DC voltage and the negative DC voltage applied to the two terminals of the coil units 22a and 22b are controlled and regulated, the cover part 33 of the two blades 3 has the first light hole ( 11) can be opened or closed to eventually move between the first and second positions to open or close the light path for the exposure process of the image. For example, as shown in FIG. 5, when the two blades 3 are in the first moving position, the optical path is opened. In contrast, as shown in FIG. 6, when the two blades 3 are in the second moving position, the optical path is closed. The spacer 5 can be used to prevent the moving two blades 3 from interfering with or blocking each other, in order to maintain the requirements of the two blades 3. According to this requirement, the spacer 5 is installed between the two blades 3 in order to achieve the above object. Of course, the spacers 5 may be optional or may be formed in other designs to achieve the same purpose. Preferably, the spacer 5 is used, taking into account that the performance of the shutter may be lowered in another manner.

As described above, the two magnetic cores 21a and 21b are symmetrically disposed on the base 1 to the outer circumference of the first light hole 11, so that only one first light hole 11 is connected to the base ( To be provided in the center of 1). Therefore, there is an advantage that the physical volume of the shutter device is reduced, and the device can be formed thinner. In addition, the receiving groove 15 for the two magnetic cores 21a and 21b and the coil units 22a and 22b, and the cavity 12 for the two magnetic parts 23a and 23b to the base 1 As formed concave, the physical volume of the shutter device is reduced.

Next, in the present invention, it can be operated to push the two blades 3 only at the moment when the two electromagnetic valves 2a and 2b are energized. In other words, when only one electromagnetic valve 2a or 2b is energized, the associated blade 3 cannot move, preventing the lack of expected exposure. This is because the blades 3 move individually when only one electromagnetic valve 2a or 2b is energized.

In addition, the two magnetic cores 21a and 21b are apparently symmetrical members. When the two electromagnetic valves 2a, 2b are energized, one shutter is fast and the other one is slow, so that the two blades 3 are moved synchronously to prevent the exposure time from being affected. Electromagnetic thrust is generated.

Although the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not necessarily limited to these disclosed embodiments. On the contrary, the foregoing description is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims, which are intended to be in accordance with the broadest description so as to encompass all such modifications and similar constructions.

1 is a three-dimensional assembly view of the present invention.

2 is a three-dimensional exploded view of the present invention.

3 is an assembled top view of the present invention.

4 is a sectional view taken along section 4-4 of FIG.

Fig. 5 is a top view showing the first position of the blade of the present invention with the cover plate and spacers omitted.

Fig. 6 is a top view showing the second position of the blade of the present invention with the cover plate and spacers omitted.

Description of the Related Art [0002]

1: base 2a, 2b: electromagnetic valve

3: blade 4: cover plate

5: spacer 11, 41, 51: light hole

21a, 21b: magnetic core 22a, 22b: coil unit

23a, 23b: magnetic part

Claims (5)

A base having a first light hole for passing light therein; Two magnetic valves each comprising a magnetic core having two ends formed thereon, a coil unit wound around the magnetic core, and a magnetic portion rotatably provided on the base, the magnetic core of the two electromagnetic valves And the coil unit are provided symmetrically on the base on the outer periphery of the first light hole of the base, one of the ends of the magnetic core of each electromagnetic valve corresponding to the magnetic portion of the associated electromagnetic valve, the magnetic core of each electromagnetic valve The other end of the two electromagnetic valves corresponds to the magnetic portion of the other electromagnetic valve; Two blades connected in one with a corresponding magnetic portion of the electromagnetic valve, each blade freely moving between a first position and a second position to open or close a first light hole; And A cover plate connected to the base and having a second light hole corresponding to the first light hole of the base, the cover plate being installed so that each blade is disposed between the base, The magnetic core and coil unit of the two electromagnetic valves are used to generate an electromagnetic field, and the two electromagnetic fields and the magnetic forces generated by the magnetic parts of the two electromagnetic valves interact with each other to generate two electromagnetic thrusts, and By two electromagnetic thrusts pushing and moving the magnetic portions of the two electromagnetic valves, the two blades can move between the first position and the second position to open or close the first light hole, And the magnetic cores of the two electromagnetic valves are a pair of apparently symmetrical members, arranged axially symmetrically at diagonally opposite positions. delete According to claim 1, Two concave receiving grooves are formed symmetrically in the axial direction at the diagonally opposite corners of the outer peripheral portion of the first light hole of the base, the receiving groove corresponding to the magnetic core and coil unit of the two electromagnetic valves Shutter device, characterized in that provided in. 2. The cavity of claim 1 wherein two cavities are formed on two opposite sides of the base, a pivot pillar protrudes from the bottom wall of each cavity, and the magnetic portions of the two electromagnetic valves correspond to the cavities. And a pivot hole formed in each magnetic portion so that the pivot pillar can rotate within the pivot hole. The shutter device according to claim 1, further comprising a spacer provided between the two blades and having a third light hole corresponding to the first light hole and the second light hole.

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