KR101117958B1 - Motor for driving lens - Google Patents

Abstract

A lens driving motor is disclosed. The lens driving motor is inserted into the opening formed on the side of the housing, and the guide protrusion contacting the inner surface of the opening is formed in the spring. When the guide protrusion is inserted into the opening, the spring is coupled to the base. This is assembled at a fixed position. Therefore, there is no need for a separate part for assembling the spring in a predetermined position, thereby reducing the cost and preventing the spring from twisting and being deformed or rotated. In addition, when the widths of the plurality of openings are different from each other, and the guide protrusions are correspondingly formed, the direction in which the spring is assembled is determined. Therefore, the spring can be assembled at a constant position and in a constant direction at all times.

Description

Lens Driving Motor {MOTOR FOR DRIVING LENS}

1 is a perspective view of a carrier of a conventional lens driving motor.

2 is a cross-sectional view of a lens driving motor according to an embodiment of the present invention, showing that the carrier is raised.

3 is a perspective view of the housing and the spring shown in FIG.

4 is a perspective view of a housing and a spring according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: base 120,220: housing

125: opening 170,270: spring

173a, 273a, 273b: Guide protrusion

The present invention relates to a structure for fixing a spring applied to the lens driving motor.

In accordance with the trend of multifunctional digital devices, digital devices with built-in cameras and MP3 players have been developed and used, and lens driving motors are developed and used to automatically move lenses of cameras embedded in digital devices.

1 is a perspective view of a carrier of a conventional lens driving motor, which will be described.

As shown, the lens driving motor has a base (not shown) and a housing (not shown) which are coupled to each other to form a predetermined space therein. The carrier 11 in which the lens is installed is installed in the base and the housing so as to be liftable. Carrier 11 is supported by a guide bar 13, the lower end side of the guide portion 13 is inserted and supported in the base, the upper end side is inserted and supported in the housing, the central side penetrates the carrier 11 .

In addition, a portion of the guide bar 13 inside the carrier 11 is provided with a spring 15 for returning the carrier 11 lifted by the electromagnetic force to the initial state. The guide bar 13 supports the carrier 11 to move up and down at the same time, and determines the position at which the spring 15 is assembled so that the elastic force of the spring 15 acts uniformly on the carrier 11. Reference numeral 17 is a coil.

However, in the conventional lens driving motor as described above, in order to assemble the spring 15 to a predetermined position, a guide bar 13 is separately required, and an insertion groove into which the guide bar 13 is inserted into the base and the housing is inserted. Since each must be formed, the manufacturing process has a complex disadvantage.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to provide a lens driving motor that can shorten the manufacturing process of the housing by assembling the spring in a set position.

Lens driving motor according to the present invention for achieving the above object, the base; A housing coupled to the base; A yoke fixed to an inner circumferential surface of the housing; A magnet fixed to the yoke; A carrier mounted to the inside of the yoke so as to be elevated, and having a lens coupled to a central portion thereof; A coil fixed to an outer circumferential surface of the carrier to face the magnet and acting with the magnet to raise the carrier; In the lens driving motor comprising a spring provided between the carrier and the housing to elastically support the carrier,

A plurality of openings are formed on the side of the housing,

The spring is provided in a ring shape, the inner side of which is fixed to the outer peripheral surface side of the carrier and the outer side is formed with a guide projection in contact with the inner surface of the opening of the housing.

Hereinafter, a lens driving motor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view of a lens driving motor according to an embodiment of the present invention, showing a state in which a carrier is raised, and FIG. 3 is a perspective view of a housing, a spring, and a base shown in FIG.

As shown, the lens driving motor 100 has a base 110 and the housing 120 are coupled to each other to form a predetermined space therein.

The inner surface of the housing 120 has an outer wall 131, an inner wall 134, and an upper plate 137, and a yoke 130 having a ring shape is fixed, and an inner circumferential surface of the yoke 130 has a ring shape. The magnet 140 is fixed.

The carrier 150 is installed inside the inner wall 134 of the yoke 130 so that the carrier 150 can be lifted, and the lens 200 that is lifted in the same manner as the carrier 150 is installed inside the carrier 150.

The wound coil 160 is fixed to the outer peripheral surface of the lower side of the carrier 150. In this case, the coil 160 is positioned between the inner wall 134 of the yoke 130 and the magnet 140 to face the magnet 140 at the same time. Thus, when a current is supplied to the coil 160, the coil 160 is raised by the action of the electric field generated in the coil 160 and the magnetic field generated in the magnet 140, thereby raising the carrier 150 While raising the lens 200.

On the upper side and the lower side of the yoke 130, springs 170 forming a ring shape while having an inner frame 171, an outer frame 173, and a leg 175 are installed.

The inner frame 171 of the spring 170 located on the upper side is fixed to the upper outer peripheral portion of the carrier 150, the outer frame 173 is fixed between the upper surface of the yoke 130 and the housing 120, A plurality of legs 175 are provided to connect the inner frame 171 and the outer frame 175. In addition, the inner frame 171 of the spring 170 positioned at the lower side is fixed to the lower outer peripheral surface portion of the carrier 150, and the outer frame 173 is fixed between the lower surface of the yoke 130 and the base 110. A plurality of legs 175 are provided to connect the inner frame 171 and the outer frame 173. Thus, when the current supplied to the coil 160 is cut off, the carrier 150 is lowered by the elastic force of the spring 170. For this reason, the lens 200 is lowered.

Upper and lower spacers 181 and 185 having ring shapes having elasticity are respectively provided on the upper and lower surfaces of the yoke 130. The upper and lower spacers 181 and 185 expand and compensate for tolerances due to dimensional tolerances and assembly errors occurring during assembly of the components assembled inside the housing 110.

The lens driving motor 100 according to the present exemplary embodiment is configured such that the spring 170 may be assembled at a predetermined position using the opening 125 formed at the side of the housing 120.

In detail, as shown in FIG. 3, the housing 120 is provided in the shape of a square cylinder having an open lower surface thereof, and an opening portion 125 having a square shape is formed at each side.

On the outer circumferential surface of the outer frame 173 of the spring 170 is formed to correspond to each opening portion 125, guide protrusions 173a inserted into the opening portion 125 and in contact with the inner surface of the opening 125, respectively. Is formed. That is, one side of the guide protrusion 173a is in contact with the inner surface of one side of the opening 125, and the other side is in contact with the other inner surface of the opening 125, respectively, the housing 120 base 110 ), The spring 170 is assembled to a predetermined position of the housing 120. In addition, the spring 170 is prevented from twisting and being deformed or rotated.

In this case, the width of each opening 125 is formed to be the same, and each guide protrusion 173a is formed to correspond to the opening 125, respectively.

4 is a perspective view of a housing and a spring according to another embodiment of the present invention, and only the difference from FIG. 3 will be described.

Among the openings 225a and 225b formed in the housing 220, the width of one of the openings 225a is formed differently from the width of the other openings 225b, and the guide protrusions 273a of the spring 270 are formed. 273b is formed to correspond to the openings 225a and 225b, respectively. Then, not only the spring 270 may be assembled in a predetermined position of the housing 220, but also the direction in which the spring 270 is assembled is determined. Therefore, the spring 270 can be assembled at a constant position and in a predetermined direction at all times.

As described above, the lens driving motor according to the present invention is inserted into the opening formed on the side of the housing, the guide projection contacting the inner surface of the opening is formed in the spring, so that the guide projection is inserted into the opening When the housing is coupled to the base, the spring is assembled at a fixed position. Therefore, there is no need for a separate part for assembling the spring in a predetermined position, thereby reducing the cost and preventing the spring from twisting and being deformed or rotated.

In addition, when the widths of the plurality of openings are different from each other, and the guide protrusions are correspondingly formed, the direction in which the spring is assembled is determined. Therefore, the spring can be assembled at a constant position and in a constant direction at all times.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Of course.

Claims (5)

Base; A housing coupled to the base; A yoke fixed to an inner circumferential surface of the housing; A magnet fixed to the yoke; A carrier mounted to the inside of the yoke so as to be elevated, and having a lens coupled to a central portion thereof; A coil fixed to an outer circumferential surface of the carrier to face the magnet and acting with the magnet to raise the carrier; In the lens driving motor comprising a spring provided between the carrier and the housing to elastically support the carrier, A plurality of openings are formed on the side of the housing, The spring is provided in a ring shape, the inner side is fixed to the outer peripheral surface side of the carrier, the lens driving motor, characterized in that the guide projection in contact with the inner surface of the opening of the housing. The method of claim 1, The spring has a ring-shaped inner rim, a ring-shaped outer rim and legs connecting the inner rim and the outer rim, respectively. The guide protrusion is formed on the outer circumferential surface of the outer frame, The spring is arranged two up and down, The inner frame of the spring of the upper side is fixed to the outer peripheral surface of the upper side of the carrier and the outer frame is fixed between the upper surface of the yoke and the housing, The inner frame of the lower spring is fixed to the lower outer peripheral surface of the carrier and the outer frame is fixed between the lower surface of the yoke and the base. The method of claim 2, Upper and lower spacers each having an elastic ring shape are provided on the upper and lower surfaces of the yoke. The outer frame of the spring on the upper side and the lower side is fixed between the upper surface and the upper spacer of the yoke and between the lower surface and the lower spacer of the yoke, respectively. The method of claim 1, The width of each opening is the same, and the guide protrusion is a lens driving motor, characterized in that formed corresponding to the opening. The method of claim 1, The width of any one of the opening portion of the opening portion is different from the width of the other opening portion, the guide projection motor, characterized in that formed in correspondence with the opening portion.

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