KR100947285B1 - Barrel driving mechanism for auto-focusing and having the barrel driving mechanism - Google Patents

Abstract

The present invention relates to a barrel drive mechanism for automatic focus adjustment and a shutter drive device having the same.

The automatic focus adjustment barrel driving mechanism according to the present invention includes a barrel housed in a shutter and a yoke for a lens driving device; A focus adjusting lens inserted into the barrel to adjust focus; A shock absorbing member attached to the barrel and the yoke for the shutter and the lens driving device to mitigate an impact; And a plurality of magnetic members installed between the barrel and the yoke for the shutter and the lens driving device to generate magnetism.

In addition, the shutter drive device having a barrel driving mechanism for automatic focusing adjustment according to the present invention, the base member; An iris guide member accommodated in the base member and rotating; A shutter driving coil attached to the iris guide member to which a current is applied; A plurality of irises connected to an upper portion of the iris guide member to adjust an amount of incident light; A shutter cover member connected to an upper portion of the iris to guide rotation of the iris guide member; A shutter yoke and a shutter magnet provided between the base member and the shutter driving coil; And a barrel driving mechanism for automatic focusing adjustment, and a shutter and a yoke for a lens driving device accommodated in the base member.

According to the present invention, by combining the shutter drive device and the autofocus adjustment barrel drive mechanism through one yoke, it is possible to miniaturize the drive device used for the module camera, and to use a separate mechanism such as a stepping motor or a screw rod. Therefore, there is an effect of reducing the power consumption.

In addition, since the efficiency of the driving force generated by the driving coil and the magnet is kept the same, and the high-speed precise position control of the focusing lens is possible, it is possible to obtain the best image from the image pickup device.

Camera, barrel, shutter, iris, york

Description

Barrel driving mechanism for automatic focusing and shutter driving device having the same {Barrel driving mechanism for auto-focusing and having the barrel driving mechanism}

1 is an exploded perspective view showing the configuration of a shutter driving device for a conventional camera phone

2 is a block diagram of a conventional barrel driving mechanism for automatic focus adjustment

Figure 3 is an exploded perspective view showing the configuration of the auto-focus adjustment barrel driving mechanism according to an embodiment of the present invention

Figure 4 is a side cross-sectional view showing an assembled state of the autofocus adjustment barrel driving mechanism shown in FIG.

Figure 5 is an exploded perspective view of one side showing the configuration of a shutter driving apparatus according to another embodiment of the present invention

6 is another exploded perspective view showing the configuration of the shutter driving apparatus according to the present invention;

7 is a plan view showing an assembled state of the shutter driving apparatus according to the present invention;

8A to 8C are plan views illustrating an operation process of the shutter driving apparatus according to the present invention.

<Explanation of symbols for main parts of drawing>

100: base member 110: iris guide member

120: shutter drive coil 130: iris

140: shutter cover member 150: shutter yoke

160: shutter magnet 170: shutter and lens drive yoke

171: barrel 172: first drive coil

173: second driving coil 174: lens group for adjusting the focus

175: buffer member 176, 177: magnetic member

The present invention relates to a barrel driving mechanism for automatic focusing and a shutter driving apparatus having the same, and in particular, a shutter coil driving device for a phone camera and a barrel driving mechanism for automatic focusing can be used together by a driving coil and a magnet. The present invention relates to a barrel driving mechanism for autofocus control and a shutter driving device having the same, capable of maintaining the same efficiency of the generated driving force and miniaturizing the overall size of the driving device for the camera module.

In general, the camera obtains the best image from the image pickup device by adjusting the focus of the lens according to the light emitted from the subject. In addition, by temporarily blocking the incident light, the F number, which is a unit for displaying the brightness of the lens, is obtained by obtaining the best image from the imaging device or by adjusting the diameter of the incident light.

As described above, a shutter driving device is used to block light incident from the outside, adjust an incident diameter of light, or block incident light instantaneously, and a barrel driving mechanism for autofocus adjustment to adjust the focus of the lens. Is being used.

1 is an exploded perspective view showing the configuration of a conventional shutter drive device for a camera phone, the shutter drive device shown here is one or more coils 25, 26; A stator 10 in which a light passing hole 30 for providing light to the lens group in the barrel device and a plurality of first fixing protrusions 14 are formed; First and second shaft holes 34 and 36 are formed, and the first fixing protrusion 14 of the stator 10 is coupled to the first shaft hole 34 to the light passing hole 30. A plurality of irises 16, 18 and 20 for controlling the amount of incident light; A second fixing protrusion 32 is formed to be coupled to the second shaft hole 36 of the iris 16, 18, and 20, and one or more coupling protrusions to which the coils 25 and 26 are coupled. A rotor 22 in which 24 is formed; And a plurality of rotors positioned at a predetermined distance from the coils 25 and 26 to form a pair by a magnetic moment in a predetermined direction formed by the coils 25 and 26 to rotate the rotor 22. It consists of a permanent magnet (28).

2 is a configuration diagram of a conventional barrel focusing mechanism for automatic focusing, wherein lenses 2 and 3 are installed inside the barrel 1, and nuts 4 are installed on the side surfaces of the barrel 1. A screw rod 5 is screwed into the nut 4.

In addition, a driven gear 6 is fixed at one end of the screw rod 5, and the driven gear 6 is gear-coupled with the driving gear 9 which is installed on the drive shaft 8 of the stepping motor 7 and rotates. As the stepping motor 7 rotates, the screw rod 5 rotates so that the barrel is linearly reciprocated.

In the conventional camera, the shutter driving device shown in FIG. 1 for temporarily blocking the incident light and the autofocus adjustment barrel driving device shown in FIG. 2 for adjusting the focus of the lens are manufactured and assembled into separate modules. By doing so, there is a problem in that the overall size of the driving device for the camera module is increased.

In addition, in the configuration of FIG. 2 described above, by using separate mechanisms such as the stepping motor 7 and the screw rod 5, mechanical loads, which are frictions between the gears, are generated and power consumption is increased. There is a backlash between the gears, there is a problem that high speed movement and precise position control is impossible.

The present invention has been made in view of the above-described problems of the prior art, and an object of the present invention is to provide a yoke of a shutter driving device for moving a plurality of irises, and a yoke of a driving mechanism for linearly reciprocating an autofocus adjusting lens. The present invention provides an autofocus adjusting barrel driving mechanism capable of maintaining the same efficiency of driving force generated by a driving coil and a magnet by arranging the unit so as to serve as one yoke, and a shutter driving device having the same.

Another object of the present invention is to provide an autofocus adjusting barrel driving mechanism capable of miniaturization of a driving mechanism for a camera module by using a shutter driving device and a barrel driving mechanism for automatic focusing, and a shutter driving device having the same.

An object of the present invention described above, the barrel is accommodated in the shutter and the yoke for the lens driving device; A focus adjusting lens inserted into the barrel to adjust focus; A shock absorbing member attached to the barrel and the yoke for the shutter and the lens driving device to mitigate an impact; And a plurality of magnetic members installed between the barrel and the yoke for the shutter and the lens driving device to generate magnetism.

Preferably, in the present invention, a plurality of driving coils are wound at predetermined intervals on upper and lower outer circumferential surfaces of the barrel, and the driving coils are formed in each of the driving coils by currents flowing in opposite directions by the applied driving control signal. The magnetic field in the opposite direction is characterized in that the connection is generated.

In addition, in the present invention, the buffer member is characterized in that the leaf spring.

In addition, in the present invention, the magnetic member is characterized in that the magnet (magnet) having a pole opposite to each other.

Furthermore, in the present invention, the magnetic member is characterized in that it is fixed at a predetermined interval to minimize the leakage of magnetic flux.

On the other hand, the above object of the present invention, the base member; An iris guide member accommodated in the base member and rotating; A shutter driving coil attached to the iris guide member to which a current is applied; A plurality of irises connected to an upper portion of the iris guide member to adjust an amount of incident light; A shutter cover member connected to an upper portion of the iris to guide rotation of the iris guide member; A shutter yoke and a shutter magnet provided between the base member and the shutter driving coil; And a shutter driving mechanism for autofocus adjustment, and a shutter and a yoke for a lens driving device accommodated in the base member. The shutter driving apparatus includes an automatic focus adjustment barrel driving mechanism.

Preferably, in the present invention, the base member has a hexahedron shape of which the upper surface is open, a through hole having a predetermined diameter is formed on a bottom surface thereof, and a plurality of coupling protrusions are formed along the periphery of the through hole, Adjacent to the receiving portion is characterized in that formed.

In addition, the iris guide member in the present invention, a ring (ring), a plurality of engaging projections are formed along the upper circumference, characterized in that the extension portion of the rectangular shape is formed on one side of the outer circumference.

In addition, in the present invention, the iris is characterized in that a plurality of insertion holes are formed along the inner circumference and a plurality of insertion slots having a semicircular shape are formed along the outer circumference.

In addition, in the present invention, the shutter cover member has a rectangular shape, and a through hole having a predetermined diameter is formed at the center of the inner surface, and a plurality of connecting holes are formed along the outer circumference of the through hole, and a plurality of along the outer circumference of the connection hole. Characterized in that the insertion slot is formed.

In addition, the automatic focus adjustment barrel driving mechanism in the present invention, the barrel is accommodated in the shutter and the yoke for the lens driving device; A focus adjusting lens inserted into the barrel to adjust focus; A buffer member attached to an upper surface of the barrel and the yoke for the shutter and the lens driving device to mitigate an impact; And a plurality of magnetic members installed between the barrel and the shutter and the yoke for the lens driving device to generate magnetism.

In addition, in the present invention, a plurality of driving coils are wound at predetermined intervals on upper and lower outer peripheral surfaces of the barrel, and the driving coils are reversed from each driving coil by flowing currents in opposite directions by an applied driving control signal. It is characterized in that the wiring to generate a magnetic field in the direction.

In addition, in the present invention, the buffer member is characterized in that the leaf spring.

In addition, in the present invention, the magnetic member is characterized in that the magnet (magnet) having a pole opposite to each other.

Furthermore, in the present invention, the magnetic member is characterized in that it is fixed at a predetermined interval to minimize the leakage of magnetic flux.

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

(Example 1) A barrel drive mechanism for automatic focusing

Figure 3 is an exploded perspective view showing the configuration of the autofocus adjustment barrel driving mechanism according to an embodiment of the present invention, Figure 4 is a side cross-sectional view showing the assembly state of the autofocus adjustment barrel driving mechanism shown in Figure 3, With reference to this, the autofocus adjustment barrel driving mechanism according to the present invention has a large barrel, a focus adjusting lens inserted into the barrel to adjust the focus, a buffer member attached to the barrel, and the barrel and the shutter and the lens driving device. It comprises a plurality of magnetic members provided between the yoke.

The shutter and the lens driving device yoke 170 may have a ring shape, and a barrel 171 having a ring shape may be formed on the inner circumferential surface of the shutter and the lens driving device yoke 170. 176 and 177 are stored and supported.

In this case, first and second driving coils 172 and 173 are wound at predetermined intervals on upper and lower outer peripheral surfaces of the barrel 171, and the first and second driving coils 172 and 173 are applied thereto. It is preferable to connect the currents in opposite directions by the drive control signals so that magnetic fields in opposite directions are generated in the respective drive coils.

In addition, the lens barrel 174 having a cylindrical shape is inserted into the barrel 171 to adjust the focus, and a ring-shaped buffer member 175 formed of a leaf spring includes the barrel ( 171 and attached to the upper surface of the shutter and the lens driving device yoke 170 to alleviate the impact, the inner peripheral surface 175a of the buffer member 175 is attached to the upper surface of the barrel 171, An outer circumference 175b of the member 175 is attached to an upper surface of the shutter 170 and the yoke 170 for the lens driving device.

The magnetic members 176 and 177 formed of magnets having opposite poles in a ring form are disposed at upper and lower portions between the shutter 170 and the yoke 170 for the lens driving device and the barrel 171. In order to minimize leakage of magnetic flux, it is fixedly installed at a predetermined interval to generate magnetism.

In this case, the magnetic members 176 and 177 may be disposed to face the first and second driving coils 172 and 173.

Example 2 Shutter Driving Device

Figure 5 is an exploded perspective view of one side showing the configuration of the shutter driving apparatus according to another embodiment of the present invention, Figure 6 is an exploded perspective view of the other side showing the configuration of the shutter driving apparatus according to the present invention, Figure 7 is a present invention It is a top view which shows the assembly state of the shutter drive apparatus.

8A to 8C are plan views illustrating an operation process of the shutter driving apparatus according to the present invention. Referring to this, the shutter driving apparatus according to the present invention includes a base member, an iris guide member that is accommodated in the base member, and rotates. A shutter driving coil attached to the iris guide member to which a current is applied, an iris connected to the iris guide member to adjust light sensitivity, a shutter cover member guiding rotation of the iris guide member, And a shutter yoke and a shutter magnet installed between the base member, the shutter driving coil, and a barrel driving mechanism for automatic focus adjustment, and including a shutter and a lens driving device yoke accommodated in the base member.

As shown in FIGS. 5 to 7, the base member 100 has a hexahedron shape with an open top surface, a through hole 104 having a predetermined diameter is formed on a bottom surface thereof, and a circumference of the through hole 104. Along the five coupling protrusions 106 are formed at equal intervals.

In addition, the bottom of the inner surface of the base member 100 is adjacent to the through hole 104 and the engaging projection 106, the iris guide member 110, the shutter driving coil 120, the shutter yoke 150 to be described later In order to seat the shutter magnet 160, a receiving unit 102 processed into a predetermined shape is formed.

5 and 6, the iris guide member 110 has a ring shape, and five coupling protrusions 112 are formed at equal intervals along the upper circumference thereof, and on one side of the outer circumference thereof. An extension part 114 having a square shape is formed.

At this time, the shutter driving coil 120 is applied to the extension portion 114, the current is applied, the iris guide member 110 is accommodated in the base member 100, and then the shutter driving coil ( 120 by the current applied to.

Five iris (130) bent in an approximately 'L' shape is inserted into the engaging projection 106 of the base member 100 along the inner circumference, as shown in Figures 5 and 6 An insertion hole 132 is formed, and an insertion slot 134 having a semicircular shape is inserted into the coupling protrusion 112 of the iris guide member 110 along the outer circumference of the iris 130. The iris 130 is installed above the iris guide member 110 as described above and rotates together with the iris guide member 110 to change the incident light diameter to adjust the amount of incident light. .

5 to 7, the shutter cover member 140 has a substantially rectangular shape, and a through hole 142 having a predetermined diameter is formed at an inner center of the shutter cover member 140, and is formed along an outer circumference of the through hole 142. A connecting hole 146 is formed in communication with the insertion hole 132 of the iris 130, and the insertion slot 144 in communication with the insertion slot 134 of the iris 130 along the outer periphery of the connection hole 146. ) Is formed.

The shutter cover member 140 is installed above the iris 130 as described above to guide the rotation of the iris guide member 110 while rotating together with the iris guide member 110 and the iris 130.

A plurality of shutter magnets 160 are attached to both ends of the inside of the shutter yoke 150 and are provided between the base member 100 and the shutter driving coil 120.

The shutter and the lens driving device yoke 170 includes the auto focus adjusting barrel driving mechanism and is housed in the base member 100, and the auto focus adjusting barrel driving mechanism and the shutter and lens driving device yoke ( 170 is already described above, and thus description thereof will be omitted.

Hereinafter, the operation of the present invention having the configuration as described above.

As shown in FIGS. 5 to 7, when a current is applied to the shutter driving coil 120, an action force (indicated by F in FIG. 7) in the left and right rotation directions is generated, and the shutter magnet 160 is provided. As shown in Figures 8a to 8c by the magnetism of the, the iris guide member 110 is rotated while being connected to the coupling protrusion 112 of the iris guide member 110 through the insertion slot 134 Each iris 130 may also rotate together to vary the diameter at which light is incident to adjust the amount of incident light.

At this time, the insertion slot 144 of the shutter cover member 140 is connected to the coupling protrusion 112 of the iris guide member 110 via the insertion slot 134 of the iris 130, The cover member 140 guides the rotation of the iris guide member 110 through the insertion slot 144.

Meanwhile, as illustrated in FIG. 3, first and second driving coils 172 and 173 are wound on upper and lower outer peripheral surfaces of the barrel 171, and the first and second driving coils 172 and 173 are wound. ), It is possible to generate a magnetic field in the opposite direction in each drive coil as the current in the opposite direction flows by the applied drive control signal.

In addition, magnetic members 176 and 177 having opposite poles are provided between upper and lower portions of the shutter 170 and the yoke 170 for the lens driving device and the barrel 171 to generate magnetism. As a current is applied to the first and second driving coils 172 and 173, an upward acting force (indicated by F ′ in FIG. 4) is generated as shown in FIG. It is possible to adjust the focus on the image plane by moving the focusing lens 174 installed therein in the vertical direction.

In the above process, the shutter and the lens driving device yoke 170 use the yoke for the shutter driving device for moving the plurality of iris 130 and the yoke for the barrel driving mechanism for the automatic focusing adjustment, so that the plurality of It is possible to miniaturize the overall size of the driving device for the camera module while maintaining the same efficiency of the driving force generated by the driving coils 172, 173 and the magnetic members 176, 177.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

As described above, according to the present invention, the shutter drive device and the autofocus adjustment barrel drive mechanism are combined through one yoke, so that the drive device used for the module camera can be miniaturized.

In addition, since a separate mechanism such as a stepping motor or a screw rod is not used, power consumption can be reduced.

In addition, there is an effect that can maintain the same efficiency of the driving force generated by the drive coil and the magnet.

In addition, since high-speed precise position control of the focusing lens is possible, the best image can be obtained from the image pickup device.

Claims (15)

delete delete delete delete delete A base member; An iris guide member accommodated in the base member and rotating; A shutter driving coil attached to the iris guide member to which a current is applied; A plurality of irises connected to an upper portion of the iris guide member to adjust an amount of incident light; A shutter cover member connected to an upper portion of the iris to guide rotation of the iris guide member; A shutter yoke and a shutter magnet provided between the base member and the shutter driving coil; And And a barrel driving mechanism for automatic focus adjustment, and a shutter and a lens driving device yoke accommodated in the base member. The method of claim 6, The base member, It is a hexahedron shape with an open top, Through holes of a predetermined diameter are formed on the bottom surface, A plurality of coupling protrusions are formed along the through hole circumference, Shutter driving device having a barrel driving mechanism for the automatic focus adjustment, characterized in that the receiving portion of the predetermined shape is formed adjacent to the through hole and the engaging projection. The method of claim 6, The iris guide member, A ring driving device comprising a barrel driving mechanism for autofocus control, characterized in that a plurality of engaging projections are formed along the upper circumference and a rectangular extension portion is formed on one side of the outer circumference. The method of claim 6, The iris is A shutter driving device having a barrel drive mechanism for autofocus adjustment, characterized in that a plurality of insertion holes are formed along the inner circumference and a plurality of insertion slots having a semicircle shape are formed along the outer circumference. The method of claim 6, The shutter cover member, As a rectangular shape, a through hole having a predetermined diameter is formed in the center of the inner surface. A plurality of connecting holes are formed along the outer circumference of the through hole, Shutter driving device having a barrel driving mechanism for the automatic focus adjustment, characterized in that a plurality of insertion slots are formed along the outer periphery of the connection hole. The method of claim 6, The autofocus adjustment barrel drive mechanism, A barrel housed in the shutter and the yoke for the lens driving device; A focus adjusting lens inserted into the barrel to adjust focus; A buffer member attached to an upper surface of the barrel and the yoke for the shutter and the lens driving device to mitigate an impact; And And a plurality of magnetic members disposed between the barrel and the yoke for the shutter and the lens driving device to generate magnetism. The method of claim 11, A plurality of driving coils are wound at predetermined intervals on the upper and lower outer circumferential surfaces of the barrel, and the driving coils generate currents in opposite directions by the applied driving control signal so that magnetic fields in the opposite directions are generated in the respective driving coils. Shutter drive device having a barrel drive mechanism for automatic focusing, characterized in that the connection. The method of claim 11, The buffer member, Shutter drive device having a barrel drive mechanism for automatic focusing, characterized in that the leaf spring. The method of claim 11, The magnetic member, A shutter drive device having a barrel drive mechanism for automatic focusing, characterized in that it is a magnet having opposite poles. The method of claim 14, The magnetic member, Shutter drive device having a barrel drive mechanism for automatic focusing, characterized in that the fixed installation at a predetermined interval to minimize the leakage of magnetic flux.

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