KR20150125395A - Focusing device for projector - Google Patents

Abstract

The present invention relates to a compact focusing device of a compact projector mounted at a small-sized mobile device, such as a portable terminal. The present invention moves a lens barrel having a number of projecting lens along the optical axis direction, in a main body of the projector. The present invention includes: a driving unit which is attached in the main body of the device, and includes at least one gear rotated by an operation unit; a moving unit which is formed at an outer part of the lens barrel, and moves the barrel by moving parallel with the optical axis direction due to a rotating movement of the gear causes while interlocking with the driving part. The present invention enables a precise control of focusing due to the structure which precisely adjusts a moving distance of the lens barrel.

Description

FOCUSING DEVICE FOR PROJECTOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a projector, and more particularly, to a focusing device for an ultra-small projector mounted on a small-sized device such as a portable terminal.

As the information age rapidly develops, the importance of a display device that realizes a large screen is emphasized. As an example of a device that implements such a large screen, there is a projector having a function of enlarging and projecting an image. Such a projector is a device that implements an image using light generated from a light source and projects the implemented image.

In recent years, in order to increase the portability of a projector, a technology for mounting a projector to a mobile device such as a mobile phone or a PDA has been developed. A portable device equipped with a micro projector, known as a pico projector or a nano projector, is being introduced. In order to mount such an ultra-small projector in a portable device, the size of a projector which is gradually required is getting smaller.

Such micro-sized projectors are usually equipped with a low-pass point device using an adjustment knob such as a dial. The focus adjustment device of the projector using the adjustment knob is operated by the user to move the barrel having the plurality of projection lenses in the optical axis direction.

Therefore, the conventional focusing device moves the barrel by the movement of the dial. Therefore, the moving distance of the barrel can not be finely manipulated. Even if the user manually manipulates the adjusting knob, the operation is sensitive, It is difficult to adjust properly. There is a problem that it is difficult to finely manipulate the focal distance of the projector.

In particular, in order to perform precise focusing in a projection optical system having a small focal length of about 0.2 mm, it is necessary to finely adjust the moving amount of the barrel. In the conventional case, when the barrel is moved in accordance with the rotation of the operating dial, There is a problem that it is difficult to precisely focus the image.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a focus adjustment apparatus for a projector capable of finely adjusting focus by providing a structure capable of finely adjusting a moving distance of a lens barrel.

According to an aspect of the present invention, there is provided a focus adjustment apparatus for a projector capable of precisely adjusting focus by providing a structure capable of finely adjusting a moving distance of a lens barrel.

Specifically, the focus adjusting apparatus according to an embodiment of the present invention is a focus adjusting apparatus for a projector that adjusts a focus by moving a lens barrel composed of a plurality of projection lenses back and forth in a direction of an optical axis in a projector body, A driving unit including at least one gear rotated by the driving unit; And a moving unit that is formed outside the lens barrel and that moves the lens barrel while moving in parallel with the optical axis direction by rotational movement of the gear in engagement with the gear of the driving unit.

The driving unit includes a gear box; A plurality of gear shafts protruding in the vertical direction in the gear box; And a plurality of gears that are engaged with the gear shaft so as to be engaged with each other, and the moving unit is formed of a raiser.

Also, in the embodiment, the gear includes first to fifth gears, and the first gear is used as an operating portion, and the rotational force from the first gear is transmitted to the second gear to the fifth gear in turn, The reduction ratio of the fifth gear to the rotation of the first gear is preferably set to 23: 1.

In the focus adjustment device of the projector as described above, since the driving unit for moving the lens barrel is composed of a plurality of gears, the moving distance per rotation of the gear at the last position corresponding to the rotation of the operating gear is drastically reduced, , So that precise focus adjustment is possible.

1 is a perspective view of a focusing device of a projector according to the present invention;
2 is a plan view of the focusing device of the projector according to the present invention; And
3 is an exploded view of a focus adjustment device of a projector according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention. And the present invention is only defined by the scope of the claims. Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. Moreover, terms used herein (to be referred to) are intended to illustrate embodiments and are not intended to limit the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

Hereinafter, technical features of the present invention will be described in detail with reference to FIGS. 1 to 3 attached hereto. FIG. 1 is a perspective view of a focus adjusting apparatus of a projector according to the present invention, FIG. 2 is a plan view of a focus adjusting apparatus of a projector according to the present invention, and FIG. 3 is an exploded perspective view of a focus adjusting apparatus of a projector according to the present invention .

1 to 3, a focus adjusting apparatus according to the present invention includes a main body 10, a barrel 20, a driving unit 30, and a moving unit 40, And is connected to the driving unit 30 by the moving unit 40 and moves in the optical axis direction according to the operation of the driving unit 30. [

The main body 10 serves as a housing for accommodating the lens barrel 20 and the driving unit 30. The main body 10 is further provided with a light source or an illumination optical system for constituting the projector, Only the configurations for performing the operation related to the adjustment will be described. The body 10 has an opening 11 formed at one side thereof as shown in FIG.

The lens barrel 20 serves as a projection optical system of the projector, and a plurality of projection lenses are mounted on the inner side in an optical axis alignment state. 1 and 2, one end of the barrel 20 is arranged to correspond to the opening 11 of the main body 10 and is movable in the back and forth direction parallel to the direction of the optical axis along with the moving part 40 to be described later. The focus is adjusted.

The driving unit 30 provides driving force for moving the barrel 20 described above, and includes at least one gear rotated by the operating unit. 1 and 2, the driving unit 30 is mounted on the inner side of the main body 10 and is disposed adjacent to the barrel 20 and at the edge of the main body 10 for easy user operation . This drive unit 30 is constituted by a gear box 31, a gear shaft 32 and a plurality of gears 33.

The gear box 31 serves as a housing for receiving the gear shaft 32 and the gear 33 and is mounted inside the main body 10 adjacent to the lens barrel 20. 3, the gear box 31 is formed in a shape in which a side surface 311 adjacent to the lens barrel 20 is opened and a gear 33 mounted in the gear box 31 is inserted into the lens barrel 20, And the opposite side 312 is also partially open so that the user can operate the gear 33.

3, the gear shaft 32 is vertically protruded in the gear box 31. The number of gear shafts 32 may vary according to the configuration of the gear 33, Alternatively, the gear box 31 may be provided as a separate member and fixedly installed in the gear box 31. According to the embodiment of the present invention, the gear shaft 32 is composed of a first axis 321 to a fourth axis 324. [

The gear 33 is coupled to the gear shaft 32 and is composed of a plurality of gears such that the rotational movement distance in accordance with the initial rotation gradually decreases. In this case, the gear 33 of the focusing device according to the present invention may be composed of the first gear 331 to the fifth gear 335 as shown in FIG.

The first gear 331 to the fifth gear 335 can be represented by the following table, which will be described with reference to FIG.

[Table 1]

The first gear 331 is used as an operating gear, that is, an operating portion, rotated by the user's manipulation. The first gear 331 is connected to the other side 312 of the gear box 31 And is formed of a spur gear having a diameter of 4 mm, which is fitted to the first shaft 321. The first gear 331 rotates by 360 degrees. The moving distance per one wheel is 12.56 mm. When the first gear 331 rotates by 10 degrees, the first gear 331 moves 0.3489 mm. At this time, the first gear 331 may be referred to as a first point for easy explanation.

The second gear 332 is fitted to the second shaft 322 and is formed as a two-stage spur gear meshing with the first gear 331. The second gear 332 meshes with the first point of the first gear 331, The diameter of the second point formed by the reserved word is formed to be 5 mm, and the diameter of the third point formed by the small gear at the lower side is formed to be 2 mm. The second gear 332 rotates 0.8 times when the first gear 331 rotates one time. The rotation angle of the second gear 332 is rotated by 288 °. The second distance is 12.56 mm , The third point is 5.024 mm, the second point moves 0.3489 mm and the third point moves 0.1396 mm when rotated by 10 °.

The third gear 333 is formed of a two-stage spur gear which is fitted to the third shaft 323 and meshed with the second gear 332. The third gear 333 meshes with the third point of the second gear 332, The diameter of the fourth point formed by the reserved word is formed to be 5 mm and the diameter of the fifth point formed by the small gear is formed to be 2 mm on the lower side. The third gear 333 rotates 0.32 times when the first gear 331 rotates one time, and the rotation angle of the third gear 333 is rotated by 115.2 degrees. The fourth position of the third gear 333 is 5.024 mm , The fifth point is 2.0096 mm, the fourth point moves 0.1396 mm and the fifth point moves 0.0058 mm when rotated by 10 °.

The fourth gear 334 is engaged with the second shaft 322 and is formed of a two-stage spur gear meshing with the third gear 333. The fourth gear 334 meshes with the fifth point of the third gear 333, The diameter of the sixth point formed by the reserved word is formed to be 5 mm and the diameter of the seventh point formed by the small gear at the lower side is formed to be 2 mm. The fourth gear 334 rotates by 0.128 laps when the first gear 331 rotates one time. The rotation angle of the fourth gear 334 rotates by 46.08 °. The sixth point of the fourth gear 334 is 2.0096 mm , The seventh point is 0.80384 mm, and when rotated by 10 degrees, the sixth point moves 0.0558 mm and the seventh point moves 0.0223 mm.

The fifth gear 335 is formed of a two-stage spur gear which is fitted on the fourth shaft 324 in an inverted manner and engages with the fourth gear 334 and engages with a seventh point of the fourth gear 334 The diameter of the eighth point formed on the upper side is formed to be 6 mm and the diameter of the ninth point formed by the small gear is formed to be 2 mm on the lower side. The fifth gear 335 rotates 0.042667 when the first gear 331 rotates one time. The rotation angle of the fifth gear 335 is rotated by 15.36 degrees. The moving distance per one wheel is 0.80384 mm , The ninth point is 0.26795 mm, the eighth point moves 0.0223 mm and the ninth point moves 0.0074 mm when rotated by 10 °. The fifth gear 335 is engaged with the moving portion 40, which will be described later.

As described above, in the driving unit 30 according to the present invention, when the first gear 331 rotates, the second through fifth gears 335 sequentially engaged with the first gear 331 sequentially rotate The amount of rotation of the fifth gear 335 due to the rotation of the first gear 331 decreases in order to explain the rotation amount of the fifth gear 335. That is, , The travel distance per revolution can be calculated as shown in the table below.

[Table 2]

Here, the symbol z represents the diameter of each gear, n represents the number of revolutions of the gear, i represents the speed transfer ratio, and R represents the travel distance. In Table 1, the diameters z1 and z2 of the first gear 331 and the second gear 332 engaged at the first stage, that is, the first point and the second point, are 4 mm and 5 mm And the diameters z3 and z4 of the second gear 332 and the third gear 333, that is, the third point and the fourth point, which are engaged in the second stage, are 2 mm and 5 mm, respectively. The diameters z5 and z6 of the third gear 333 and the fourth gear 334 engaged at the third end, that is, the fifth point and the sixth point are 2 mm and 5 mm, respectively, and in the fourth term, The diameters z7 and z8 of the gear 334 and the fifth gear 335, that is, the seventh point and the eighth point, are 2 mm and 6 mm, respectively. In addition, in the item 5, the rotation number n1 of the first point indicates one turn (360 degrees). In Section 6, i1 is 1.25 according to z2 / z1 in the first stage, i2 is 2.5 in accordance with z4 / z3 in the second stage in Section 7, and 2.5 is the velocity transmission ratio in i7 Is 2.5 according to z6 / z5, and in the ninth section, i4, which is the fourth-step speed transfer ratio, is 3 according to z8 / z7, and in the section 10, according to the calculation formula in which i, Respectively. On the other hand, in Section 11, the number of revolutions of the second point and the third point of rotation is 0.8 according to n1 / i1, and the number of revolutions of the eighth point according to the number 12 indicates 0.0426667 according to n1 / i. In this case, in the item 13, since the diameter of the first point is 4 mm, the pitch diameter? 1 of the first point is 12.56 mm, and in the item 14, the diameter of the ninth point is 2 mm, so that the pitch diameter? 9 of the 9th point is 6.28 mm. The moving distance R9 of the ninth point due to one rotation of the first point is 0.2679467 mm according to (n8) x (Ø9), and the moving distance per 10 ° rotation of the first point is (R9) x (10/360).

Therefore, the amount of rotation when the first gear 331, that is, the rotation of the first point, is transmitted to the ninth point of the fifth gear 335 decreases, and the speed transfer ratio at this time becomes about 23: 1 do.

The moving part 40 is formed on the outer side of the lens barrel 20 as shown in FIGS. 2 and 3 and is moved in parallel with the optical axis direction by the rotation of the gear 33 in engagement with the driving part 30, And may be formed in a small size. The moving part 40 may be integrally formed on the outer side of the lens barrel 20, but may be provided on the outer side of the lens barrel 20 as a separate member. At this time, the raiser of the moving part 40 is engaged with the ninth point of the fifth gear 335, and is moved in accordance with the rotation of the fifth gear 335.

That is, when the fifth gear 335 is rotated by the rotation of the first gear 331, the moving part 40 is engaged with the ninth point of the fifth gear 335, .

Accordingly, when the user rotates the first gear 331 by 10 degrees, the ninth point of the fifth gear 335 rotates by a minute distance of 0.0074 mm, 40, it is possible to move the lens barrel 20 to a very small amount of 0.0074 mm, thereby enabling precise operation during focus adjustment.

The focus adjusting apparatus according to the present invention may further include a guide unit 50 for guiding linear movement of the lens barrel 20 when the lens barrel 20 moves back and forth along the optical axis direction.

1 to 3, the guide portion 50 includes a pair of guide rods 51 and a holder 52 formed on both sides of the barrel 20, respectively. The guide rod 51 extends parallel to the optical axis direction and is slidably coupled through the holder 52. The guide rod 51 is coupled to the coupling hole 12 formed at one point of the main body 10, do. That is, as the holder 52 slides along the guide rod 51, the guide portion 50 guides the lens barrel 20 along the guide rod 51 so as to be movable in parallel with the optical axis direction.

As described above, the focusing device according to the present invention can precisely control the moving distance of the lens barrel 20, thereby enabling precise focus adjustment.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made without departing from the essential characteristics of the present invention by those skilled in the art. Therefore, the embodiments disclosed in the present invention are for illustrative purposes only and are not intended to limit the scope of the present invention, and the scope of the present invention is not limited by these embodiments.

Therefore, the scope of the present invention should be construed as being covered by the following claims rather than being limited by the above embodiments, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

10: projector body 11: opening
12: coupling hole 20: lens barrel
30: drive unit 31: gear box
32: gear shaft 33: gear
40: driving part 50: guide part
51: guide rod 52: holder

Claims (4)

A focus adjusting apparatus for a projector for adjusting a focus by moving a lens barrel composed of a plurality of projection lenses back and forth in a direction of an optical axis in a projector body,
A driving unit mounted in the main body and including at least one gear rotated by an operating unit; And
And a moving unit that is formed outside the lens barrel and moves the lens barrel while moving in parallel with the optical axis direction by rotational movement of the gear in engagement with the gear of the driving unit.
The driving apparatus according to claim 1,
Gearbox;
A plurality of gear shafts protruding in the vertical direction in the gear box; And
And a plurality of gears engaged with the gear shaft so as to be engaged with each other,
Wherein the moving unit is formed in a raiser size.
3. The method of claim 2,
Wherein the gear includes first to fifth gears,
Wherein the first gear is used as an operating portion and the rotational force from the first gear is transmitted to the second gear to the fifth gear in turn and the rotation of the fifth gear with respect to the rotation of the first gear is reduced. Device.
The method of claim 3,
And the reduction gear ratio of the fifth gear to the rotation of the first gear is set to 23: 1.

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