KR20040020230A - Device for adjustment to mirror of illumination system optical engine LCD - Google Patents

Abstract

PURPOSE: A mirror controller of an LCD optical engine illuminating system is provided to accurately control lamp light reflected to an LCD panel through a mirror. CONSTITUTION: A mirror controller(45a) of an LCD optical engine illuminating system includes a lamp, an illuminating unit, and a reflecting mirror(43). The illuminating unit has the first and second FELs, and a condensing lens. The reflecting mirror is fixed by a mirror fixing plate(145) to the inside of an optical engine housing and reflects lamp light controlled by the illuminating unit to an LCD panel. The mirror fixing plate includes a horizontal rotation controller(149), a forward-and-backward movement controller(150), and a forward-and-backward rotation controller(151). The controllers control the mirror such that the mirror reflects the lamp light to the LCD panel.

Description

Device for adjustment to mirror of illumination system optical engine LCD

The present invention relates to an optical engine that is applied to all electronic devices in which light is irradiated (projected) onto an LCD panel through a light source such as an LCD projection TV or an LCD projector, and more particularly, is installed and fixed in an optical engine through a mirror fixing plate. Mirror adjustment of the LCD optical engine illumination system that allows the mirror to be adjusted in three directions, such as left / right rotation, forward / backward movement, and forward / backward rotation, so that lamp (light source) light reflected and transmitted to the LCD panel through the mirror can be precisely adjusted. Relates to a device.

In general, in the case of an electronic device in which light emitted through a light source is enlarged and projected through an illumination system and a synthesis system to realize a large screen on a plane (screen) separate from the original image, a projection TV and an LCD projector to which an optical engine is applied The configuration of the dual projection TV is as follows.

As shown in FIG. 1, the projection TV 1 includes an optical engine 2 for emitting light, a projection lens 3 for expanding and projecting the light emitted through the optical engine 2, and Reflective mirror (4) reflects the projected light through the projection lens (3) to the entire surface of the screen (5), and a transmission screen for realizing the image by the light reflected through the reflecting mirror (4) (5), the optical engine (2) and the projection lens (3) is mounted in the lower cabinet (7) of the outer case (6), and the reflecting mirror (4) is the projection lens (2) It is mounted on the back of the upper cabinet 8 of the outer case 6 so that the projected light is reflected toward the transmissive screen 5, and the transmissive screen 5 has the light reflected through the reflecting mirror 4 It is mounted on the front surface of the outer case 6 opposite to the reflection mirror 4 so as to be implemented on the front surface of the screen 5. The.

In addition, in the case of the optical engine 2 which emits light onto the screen 5 through the reflection mirror 4 of the projection TV 1, as shown in FIGS. 2 and 3, white light is generated inside. A lamp (light source) 10; A reflector 20 which collects the white light generated by the lamp 10 and reflects it in one direction; The FEL (Fly Eye Lens) part 30 which matches the illumination area of the white light reflected through the reflector 20 to the size of the LCD panels 81, 82, 83 and evens the light intensity. ; Mirrors (41) (42) (43) for reflecting the white light adjusted by the FEL section (30); A condensing lens 50 for condensing the straightness while preventing light from spreading outward; Dichroic mirrors 61 and 62 that allow light of a certain color to pass through and reflect all other light; A dichroic lens (71) (72) (73) for filtering light of a certain color passing through the dichroic mirror (61) (62) once again; An LCD panel (81) (82) (83) activated by light of a predetermined color passing through the dichroic lenses (71) (72) (73); It is composed of a dichroic prism 90 in which a certain color image generated on the LCD panels 81, 82, 83 is combined and converted into a complete image. Reference numeral 95 denotes a projection lens 95. Reference numeral 30a denotes a first FEL 30a among the elements of the FEL unit 30, and 30b denotes a second FEL 30b.

Among the components of the optical engine 2 configured as described above, in the case of the mirrors 41, 42 and 43 reflecting the white light adjusted by the FEL unit 30, FEL 30 and PBS (Polarizing Beam Splitter): Lamp 10 passing through the polarization splitter, C-LENS (Condensing Lens) 50, etc., and plays an important role in ensuring that the light is accurately transmitted to the LCD panels 81, 82, and 83. The LCD panel 81, 82, 83 with the lamp 10 light reflected through the mirrors 41, 42, 43 being smaller than the size of the LCD panels 81, 82, 83. When it is transmitted to the screen, a problem occurs that the screen is cut off. On the contrary, the light of the lamp 10 reflected through the mirrors 41, 42, 43 is reflected on the LCD panels 81, 82, 83. If the size is larger than the size of the LCD panel 81, 82, 83, the brightness of the light of the lamp 10 is lowered. 42) (43) Reflected Lamp 10 Light through LCD Panel Accurate adjustment of the mirrors 41, 42, 43 is necessary to ensure accurate transmission to the nulls 81, 82, 83, and particularly in the case of the conventional mirrors 41, 42, 43, It is inserted into the mirror fixing plate 45 to allow the adjustment of the light of the lamp 10 which is reflected and transmitted to the LCD panels 81, 82, 83 through left / right rotation in the optical engine 2. It is fixed to a predetermined position in the engine 2, looking at the structure of such a mirror fixing plate 45 as follows.

The mirror to be described later is one of the three mirrors 41, 42, 43 as one mirror 43 which reflects the light of the lamp 10 collected through the condenser lens 50 and transmits the light to the LCD panel 83. Explain.

As shown in FIG. 4, the mirror fixing plate 45 has side lateral bending portions 46 and lower bending portions to prevent the mirrors 43 from being inserted and detached from both front and lower sides of the plate 45. 47 is formed, an upper bent portion 48 is formed at the upper end of the plate 45 to be seated and fixed to the optical engine housing 2a, and the mirror is fixed to the upper bent portion 48. The plate adjusting hole 49 having a long curvature of a predetermined curvature is mutually symmetric so that the mirror 43 inserted into the plate 45 can be rotated left / right to adjust the light of the lamp 10 reflected and transmitted to the LCD panel 83. It is penetratingly formed.

However, in the case of the conventional mirror fixing plate 45, only the mirror fixing plate 45 to which the mirror 43 is inserted is left and right only by adjusting the light of the lamp 10 to be transmitted to the LCD panel 83. Since the lamp 10 is rotated to transmit the adjusted lamp 10 to the LCD panel 83, the lamp 10 may be adjusted very precisely using only one rotation of the mirror fixing plate 45 as described above. There was a problem with limitations.

The present invention has been made in order to solve the above problems, the mirror is installed in the optical engine through the mirror fixing plate is fixed to the left and right as in the conventional mirror, as well as the front and rear movement and the front and rear rotation can be adjusted It aims to be able to precisely adjust the light reflected from the mirror to the LCD panel (hereinafter referred to as light source).

In addition, as the adjustment range of the light source light reflected to the LCD panel is enlarged through the three-way adjustment action of the mirror as described above, the defect rate of the optical engine generated by the small adjustment range of the light source light in the conventional optical engine production is reduced. In addition, there is another object to improve the productivity of the optical engine accordingly.

An object of the present invention, the left and right rotation control unit and the front and rear movement control unit, the front and rear rotation control unit and the front and rear rotation control unit to reflect the light source light according to the position of the LCD panel by adjusting the left and right, front and rear, front and rear rotation of the mirror, etc. Bar can be solved by the mirror adjusting device of the present invention provided with an adjustment unit, it will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the configuration of a general projection TV.

2 is a perspective view showing an optical engine of a conventional projection TV.

3 is a schematic configuration diagram showing an optical engine of a conventional projection TV.

4 is a block diagram and a detailed view of a conventional optical engine showing a mirror fixing state using a mirror fixing plate.

5 is an exploded perspective view of the mirror adjusting device of the present invention.

6 shows a process in which the mirror adjustment device of the present invention is coupled in an optical engine housing;

Figure 6a is a guide plate seated on the top of the optical engine housing.

6b is a state in which a mirror fixing plate is seated on a guide plate seated on an upper side of an optical engine housing to fix with a fixing screw.

7 shows an adjustment process of a mirror according to the present invention;

Figure 7a is a state in which the light source transmitted to the LCD panel through the left and right rotation of the guide plate and the mirror fixing plate fixed to the optical engine housing.

7B is a state in which the light source transmitted to the LCD panel is moved through the forward and backward movement of the mirror fixing plate among the guide plate and the mirror fixing plate fixed to the optical engine housing.

7C is a state in which the light source light transmitted to the LCD panel is adjusted through the forward and backward rotation of the guide plate and the mirror fixing plate fixed to the optical engine housing.

Explanation of symbols on the main parts of the drawings

Projection TV 2. Optical engine

2a. Optical engine housing 12. Housing bottom protrusion

13. Housing top protrusion 43. mirror

45a. Mirror adjuster 145. Mirror fixing plate

146. Lateral bends 147. Bottom bend

147a. Position setting bend 148. Upper bend

149, 162. Right and left rotation adjustment part (hole) 150. Front and rear movement adjusting part (hole)

151, 163. Front and rear rotation adjustment part (hole) 160. Guide plate

161. Guide protrusion

5 is an exploded perspective view of the mirror adjusting device of the present invention.

The mirror adjustment device 45a of the LCD optical engine illumination system of the present invention includes an illumination system (not shown) including a light source, a first FEL, a second FEL, and a condensing lens, a dichroic lens, an LCD panel, and a dichroic prism. Of the LCD optical engine (2) consisting of a composite system (not shown) provided in the optical engine housing (2a) by a mirror fixing plate fixed to the light source light adjusted through the illumination system to reflect the position of the LCD panel of the composite system In the reflection mirror to make;

Left and right rotation adjustment unit 149 and forward and rearward adjustment unit on the mirror fixing plate 145 to reflect the light source light according to the position of the LCD panel by adjusting the left and right, front and rear, front and rear rotation of the mirror 43, etc. 150, the front and rear rotation adjusting unit 151 is provided.

Hereinafter, the mirror adjusting apparatus of the present invention, the LCD optical engine illumination system will be described in detail.

The mirror adjusting device 45a of the present invention has a limitation in adjusting the light of the light source 10 reflected and transmitted to the LCD panel 83 through the left and right rotation of the mirror fixing plate 45 in which the mirror 43 is inserted and fixed. Instead of the conventional mirror fixing plate 45 structure (see FIG. 4), the optical engine housing can be adjusted not only to the left and right rotation of the mirror fixing plate 45 as in the related art but also to the forward and backward movement and the forward and backward rotation. A mirror fixing plate 145 fixed to the mirror fixing plate 145 by a mirror fixing plate 145 fixed in 2a, and a guide plate 160 having a mechanical adjustment effect with the mirror fixing plate 145. Through this, it is possible to adjust the light of the light source 10 reflected by the LCD panel 83 with high precision, and the mirror adjusting device 45a of the present invention will be described as follows.

The mirror fixing plate 145, which is a component of the mirror adjusting device 45a of the present invention, as shown in FIG. 5, is bent at both sides and lower sides of the plate so that the mirror 43 can be inserted and fixed. A portion 146 and a lower bend 147;

It is bent between the lower bent portion 147, the positioning bent portion is inserted into the bottom projection 12 of the housing (2a) so that the plate can be seated at a predetermined position of the optical engine housing (2a) ( 147a);

An upper bent portion 148 formed at an upper end of the plate so that the plate may be seated and fixed on an upper end of the optical engine housing 2a;

The upper portion is bent so that the mirror 43 can be rotated left or right or moved back and forth through a corresponding action with the left and right rotation adjusting portion 162 and the guide protrusion 161 of the guide plate 160 installed on the top of the optical engine housing 2a. A left and right rotation adjusting unit 149 and front and rear movement adjusting unit 150 formed in a symmetrical form at a predetermined position of the unit 148;

The entire LCD fixing plate 145 to which the guide plate 160 and the mirror 43 are fixed through an operation mechanism (not shown) is rotated back and forth of the optical engine housing 2a to thereby form the LCD panel 83. The front and rear rotation adjustment unit formed at a predetermined position of the upper bent portion 148 to correspond to the front and rear rotation adjustment unit 163 of the guide plate 160 to adjust the vertical position (angle) of the light reflected by the light source 10). It consists of 151.

At this time, the left and right rotation adjustment part of the mirror fixing plate 145 corresponds to the left and right rotation adjustment part 162 of the guide plate 160 so that the mirror fixing plate 145 is rotated left and right through the guide plate 160. It consists of a right and left rotation adjustment hole 149 formed in a rectangular shape so that the front and rear movement adjusting portion of the mirror fixing plate 145 corresponds to the guide protrusion 161 of the guide plate 160 to the mirror fixing plate ( 145 is formed of a front and rear movement adjusting hole 150 formed in the form of a long hole so as to be able to move forward and backward of the guide plate 160 fixed to each other.

Further, the mirror fixing plate 145 is inserted and fixed between the upper end of the optical engine housing 2a and the upper bent portion 148 of the mirror fixing plate 145 so that the mirror fixing plate 145 can be moved back and forth between the housing 2a of the optical engine. As shown in FIG. 5, the guide plate 160 is a rectangular plate member which is positioned between the upper end of the optical engine housing 2a and the upper bent portion 148 of the mirror fixing plate 145. 160a);

A left and right rotation adjusting unit 162 formed to be symmetrically penetrated at a predetermined position of the plate member 160a so that the mirror fixing plate 145 can be rotated left and right at the upper end of the optical engine housing 2a;

When the mirror fixing plate 145 is coupled, the plate member 160a may correspond to the front and rear movement adjusting part (hole) 150 of the mirror fixing plate 145 so that the mirror fixing plate 145 may be moved back and forth. A guide protrusion 161 formed to protrude in a symmetrical form at a predetermined position of the guide protrusion 161;

Fixing the mirror to adjust the vertical position (angle) of the light source light reflected and transmitted to the LCD panel by rotating the mirror fixing plate to which the mirror is fixed through an operation mechanism (not shown) before and after the optical engine housing. It is comprised by the front-back rotation adjustment part 163 formed in the position corresponding to the front-back rotation adjustment part of a plate.

At this time, the left and right rotation adjustment portion of the guide plate 160 is a long hole of a predetermined curvature so that the mirror fixing plate 145 fixed to the upper end of the optical engine housing (2a) can be rotated left and right through the guide plate 160 It consists of a left and right rotation adjusting hole 162 formed through.

And, in the case of the front and rear rotation adjustment unit of the mirror fixing plate 145 and the front and rear rotation adjustment unit of the guide plate 160, the operation mechanism (not shown), the mirror fixing plate 145 to which the mirror 43 is fixed, or The mirror fixing plate 145 and the guide plate 160 are inserted into the entire front and rear rotation adjustment hole 151 formed in a long hole shape so that the mirror 43 can be rotated (pitched) before and after the optical engine housing 2a. (163).

Looking at the assembly process for coupling the present invention configured as described above in the optical engine (2) as follows.

6 is a view illustrating a process in which the mirror adjusting device of the present invention is coupled to an optical engine housing, and FIG. 6A illustrates a state where a guide plate is seated on an upper end of an optical engine housing, and FIG. 6B is a guide seated on an upper end of an optical engine housing. It shows a state in which the mirror fixing plate seated on the plate fixed with a fixing screw.

First, in the process of coupling the mirror fixing plate 145 and the guide plate 160 of the present invention into the optical engine 2, the upper end of the optical engine housing (2a), that is, the mirror fixing plate 145 and the guide The guide plate 160 for guiding the left, right, front, and rear rotation of the mirror fixing plate 145 in which the mirror 43 is inserted and fixed on the upper end of the optical engine housing 2a on which the plate 160 is mounted is seated. At this time, in the case of the guide plate 160, as shown in Figure 6a, the left and right rotation adjusting hole 162 formed in the shape of a long hole of a predetermined curvature interpolates the upper projection 13 of the optical engine housing (2a) While seating on the upper end of the housing (2a), as shown in Figure 6b on top of the mirror 43 is fixed to the mirror fixing plate 145 is inserted and fixed by fixing screws.

At this time, in the case of the mirror fixing plate 145, the front and rear movement adjusting hole 150 formed in the form of a long hole in the front and rear direction of the plate 145 and the front and rear movement adjusting hole 150, as shown in Figure 6b At the same time, the guide protrusion 161 of the guide plate 160 protruding at the corresponding position is inserted, and the positioning bending portion 147a of the mirror fixing plate 145 is also applied to the bottom protrusion 12 of the optical engine housing 2a. After mounting the through-hole to be inserted, the left and right rotation adjusting hole 149 of the mirror fixing plate 145, the plate adjusting hole 162 of the guide plate 160, and the upper screw of the optical engine housing (2a) By matching the holes to fix using the fixing screw, the coupling process of the present invention is terminated.

Next, the adjustment process of the mirror fixing plate 145 and the guide plate 160 of the present invention is completed as described above is as follows.

7 is a view illustrating an adjustment process of a mirror according to the present invention, and FIG. 7A illustrates a state of adjusting a light source light transmitted to an LCD panel through left and right rotation of a guide plate and a mirror fixing plate fixed to the optical engine housing. 7B illustrates a state in which a light source transmitted to the LCD panel is adjusted by moving the mirror fixing plate forward and backward among the guide plate and the mirror fixing plate fixed to the optical engine housing, and FIG. 7C illustrates a guide fixed to the optical engine housing. It shows a state of adjusting the light source light transmitted to the LCD panel through the front and rear rotation of the plate and the mirror fixing plate.

As shown in FIG. 3 of the components of the optical engine 2, light emitted from the light source 10 passes through the FEL 30, PBS (polarization separator), C-LENS (condensing lens) 50, and the like. When the light source 10 is not transmitted to the position of the LCD panel 83 when the light is transmitted to the LCD panel 83, the light is reflected from the left and right positions of the LCD panel 83. As described above, the mirror fixing plate 145 and the guide plate 160 fixed to the optical engine housing 2a are rotated from side to side to move the light of the light source 10 outside the LCD panel 83 to the position of the LCD panel 83. The light source 10 light adjustment process is inserted into the upper protrusion 13 and the bottom protrusion 12 of the optical engine housing 2a, respectively, to be mounted inside the optical engine housing 2a. The entire fixed guide plate 160 and the mirror fixing plate 145, that is, the guide plate 160 and the mirror Bottom projections 12 of the optical engine housing 2a are formed on the entire guide plate 160 and the mirror fixing plate 145 through the left and right rotation adjusting holes 162 and 149 used for the left and right rotation of the positive plate 145. The light source 10 reflected and transmitted to the LCD panel 83 through the mirror 43 rotated together with the plates 145 and 160 in the same direction as the left and right sides of the axis. It can be adjusted to the position of the LCD panel 83.

In addition, when the light transmitted to the LCD panel 83 through the FEL 30, PBS, C-LENS 50, and the like is reflected and transmitted out of the entire LCD panel 83, as shown in FIG. 7B. The LCD panel 83 is moved by moving the mirror fixing plate 145 back and forth with respect to the guide plate 160 among the guide plate 160 and the mirror fixing plate 145 which are seated and fixed to the optical engine housing 2a as described above. The light source 10 outside the light source 10 is adjusted to the LCD panel 83. The light source 10 light adjustment process as described above is inserted into the front and rear movement adjusting hole 150 of the mirror fixing plate 145. The mirror fixing plate 145 is moved forward or rearward by a predetermined length of the guide protrusion 161 of the guide plate 160, that is, the front and rear movement adjusting hole 150, and the plate 145 in the same direction as described above. LCD panel through mirror 43 moved with The light source 10 is reflected to the transmission 83, it is possible to tailor the light to the LCD panel 83.

And, when the light transmitted to the LCD panel 83 through the FEL (30), PBS, C-LENS (50), etc. is reflected and transmitted to the outside of the upper and lower positions of the LCD panel 83, Figure 7c As shown in the drawing, the mirror fixing plate 145 seated and fixed to the optical engine housing 2a or the mirror fixing plate 145 and the guide plate 160 are rotated back and forth to move beyond the upper and lower positions of the LCD panel 83. The light source 10 is adjusted to the size of the LCD panel 83. The light source 10 is adjusted before and after formed in the shape of a long hole in the center of the mirror fixing plate 145 and the guide plate 160. An operation mechanism (not shown) is inserted into the rotation adjustment holes 151 and 163 so that the mirror fixing plate 145, or the mirror fixing plate 145 and the entire guide plate 160 through the operation mechanism are frontward. Or by rotating it backward The upper and lower positions (angles) of the light of the light source 10 reflected and transmitted to the LCD panel 83 through the mirror 43 moved together with the plates 145 and 160 in the same direction as above. The panel 83 can be adjusted to fit.

At this time, the front and rear movement of the mirror fixing plate 145 and the front and rear rotation of the mirror fixing plate 145 or the mirror fixing plate 145 and the guide plate 160, the optical engine housing (2a) Since the positioning bending portion 147a of the mirror fixing plate 145 is inserted into and fixed to the bottom protrusion 12, the adjustment range of the mirror fixing plate 145 adjusted as described above by the bottom protrusion 12 is adjusted. Although not very large, in the case of the reflection angle at which light is reflected by the mirror 43, when reflecting light through the mirror 43, the reflection angle of light reflected even in a small moving range of the mirror 43 By using the principle of light reflection, the light can be adjusted very precisely to the position of the LCD panel 83 even if the range of forward and backward adjustment of the mirror fixing plate 145 is small as described above. There.

The mirror adjustment device 45a of the present invention as described above is known in advance that it can be applied not only to the LCD projection TV 1 and the LCD projector, but also to all electronic devices to which light is projected through the optical engine 2.

The present invention enables the mirrors installed in the optical engine through the mirror fixing plate to be adjusted in three directions, such as left-right rotation, forward-backward movement, and forward-backward rotation, so that the lamp is reflected and transmitted to the LCD panel through the mirror. There is an excellent effect that can adjust the light very precisely.

In addition, as the adjustment range of the light source light reflected to the LCD panel is enlarged through the three-way adjustment action of the mirror as described above, the defect rate of the optical engine generated by the small adjustment range of the light source light in the conventional optical engine production is reduced. In addition, there is an excellent effect that can greatly improve the productivity of the optical engine accordingly.

Claims (8)

Light source, An illumination system provided with a first FEL, a second FEL, and a condensing lens, Of the LCD optical engines composed of a dichroic lens, an LCD panel, and a dichroic prism, a light source light which is fixed in the optical engine housing by a mirror fixing plate and adjusted through the illumination system is positioned at the position of the LCD panel of the synthesis system. A reflective mirror reflecting properly; The mirror fixing plate is provided with a left and right rotation control unit, a front and rear movement adjustment unit, and a front and rear rotation adjustment unit to reflect the light source light according to the position of the LCD panel by adjusting the left and right, front and rear, front and rear rotation of the mirror. LCD optical engine illumination system mirror adjustment device. The LCD of claim 1, wherein a guide plate is inserted and fixed between the optical engine housing and the mirror fixing plate so that the mirror fixing plate fixed in the optical engine housing can move back and forth between the housing of the optical engine. Mirror adjusting device of optical engine illumination system. The guide plate of claim 2, wherein the guide plate comprises: a plate member having a rectangular shape fixed between an upper end of the optical engine housing and an upper bent portion of the mirror fixing plate; A left and right rotation adjusting unit formed in a symmetrical form at a predetermined position of the plate member so that the mirror fixing plate can be rotated left and right at the upper end of the optical engine housing; A guide protrusion protruding in a symmetrical form at a predetermined position of the plate member so that the mirror fixing plate can be moved back and forth when the mirror fixing plate is coupled to the front and rear movement adjusting part of the mirror fixing plate; The mirror fixing plate, to which the mirror is fixed, is rotated back and forth of the optical engine housing through an operation mechanism, and the front and rear rotation of the mirror fixing plate can be adjusted to adjust the vertical position (angle) of the light source reflected and transmitted to the LCD panel. Mirror adjusting apparatus of the LCD optical engine illumination system, characterized in that consisting of the front and rear rotation adjustment unit formed in a position corresponding to the adjustment unit. According to claim 3, wherein the left and right rotation adjustment portion of the guide plate is fixed to the left and right rotation adjustment hole formed in the form of a long hole of a predetermined curvature so that the mirror fixing plate fixed to the upper end of the optical engine housing can be left and right through the guide plate. A mirror adjusting device for an LCD optical engine illumination system. According to claim 1, wherein the mirror fixing plate is a side bent portion and the bottom bent portion formed on both sides and the lower side of the plate so that the mirror can be inserted and fixed; A bending portion formed between the lower bent portions and inserted into the housing bottom protrusion to allow the plate to be seated at a predetermined position of the optical engine housing; An upper bent portion bent at the upper end of the plate so that the plate is seated and fixed on an upper end of the optical engine housing; The left and right rotation adjustment unit and the front and rear, which are formed in a symmetrical form through the predetermined position of the upper bent portion so that the mirror can be rotated left or right through the corresponding action with the left and right rotation adjustment unit and the guide protrusion of the guide plate installed on the upper side of the optical engine housing A movement adjusting unit; The guide plate and the guide plate to adjust the vertical position (angle) of the light source light reflected by the LCD panel by rotating the guide plate and the entire mirror fixing plate to which the mirror is fixed by the operation mechanism back and forth of the optical engine housing. Mirror adjustment device of the LCD optical engine illumination system, characterized in that consisting of the front and rear rotation adjustment unit formed at a predetermined position to correspond to the front and rear rotation adjustment unit. According to claim 5, wherein the left and right rotation adjusting portion of the mirror fixing plate corresponding to the left and right rotation adjusting portion of the guide plate is a left and right rotation adjusting hole formed in a rectangular shape so that the mirror fixing plate can be rotated left and right through the guide plate. A mirror adjusting device for an LCD optical engine illumination system. According to claim 5, wherein the front and rear movement adjustment portion of the mirror fixing plate corresponding to the guide protrusion of the guide plate, the mirror fixing plate through the front and rear movement adjustment formed in the long hole shape so as to be able to move forward and backward of the guide plate fixed to each other Mirror adjustment apparatus of the LCD optical engine illumination system, characterized in that the hall. The front and rear rotation adjusting part of the mirror fixing plate and the front and rear rotation adjusting part of the guide plate are fixed to the mirror fixing plate on which the mirror is fixed, or the mirror fixing plate and the guide plate as a whole. And a mirror rotation adjusting hole formed in the form of a long hole so that the mirror can be inserted and rotated back and forth of the optical engine housing.