JP3854805B2 - Lamp unit for liquid crystal projector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lamp unit of a liquid crystal projector, and more particularly to a lamp optical axis adjustment mechanism.
[0002]
[Prior art]
There is a liquid crystal projector that irradiates light onto a liquid crystal panel driven by a video signal and projects transmitted light modulated by the video signal onto a screen. A lamp is used as a light source for irradiating light to the liquid crystal panel of the projector. The characteristics of the lamp used require close brightness to a point light source and high brightness and high light efficiency. A compact and high-performance high-pressure mercury lamp that meets this characteristic has been developed, contributing to the miniaturization and high brightness of LCD projectors.
[0003]
By the way, any lamp has a lifetime, and the luminance gradually decreases as the lighting time elapses. For example, in the case of a 150W high-pressure mercury lamp used in a liquid crystal projector, the accumulated lighting is about 1500 hours (4H / day, 200 days / year, about 2 years). Have a lifetime of. Although it depends on the frequency of use of the liquid crystal projector, if it is used for 2 to 5 years, the lamp needs to be replaced.
[0004]
In the case of a liquid crystal projector, it is not necessary to simply replace the lamp like a lamp for a film projector or a fluorescent lamp for room illumination. This is because in the case of a liquid crystal projector, if the lamp optical axis and the optical axis of the projector optical system do not match each other accurately, illuminance decreases and color unevenness is caused.
FIG. 6 shows an example of an optical system of a liquid crystal projector including a lamp unit. In the figure, 61 is a lamp with a reflector, 62 is a lamp holder, 63 is a lamp optical axis, 64 is a spring for fixing the lamp, and 65 is two or three of the four corners between the reflector reference plane and the lamp holder 62. The provided spacer, 66 is a lamp unit mounting portion, 67 is a projector optical system, 68 is an optical axis of the projector optical system, and 69 is a polarization conversion element.
As shown in FIG. 7, the reflector-equipped lamp 61 has a lamp bulb 71 as a light source, electrodes 72 and 73 attached to the rear end and the front end, and a reflector 74 that reflects and focuses light from the light source. The lamp bulb 71 and the reflector 74 are fixed to each other at the A portion 75 with cement.
Conventionally, the projector optical system optical axis 68 and the lamp optical axis 63 are positioned via the reference plane 76 of the reflector 74.
[Problems to be solved by the invention]
[0005]
However, at present, there is a variation in the fixing accuracy of the A portion 75, and there is a problem that the optical axes of both lamps viewed from the reference plane 76 of the reflector 74 are not exactly the same between the lamp after replacement and the lamp before replacement. .
In order to solve this problem, a spacer 65 is inserted into the reference surface 76 of the reflector 74 to adjust the optical axis with the optical system. However, in this method, the optical axis adjustment is limited by the thickness of the spacer 65, and continuous adjustment cannot be performed, and it is necessary to remove the lamp unit from the projector optical system 67 in order to insert the spacer 65, making adjustment difficult. There was a problem of taking time.
[0006]
Another method is to adjust the angle of the lamp mounting part to align the optical axis. However, even if the optical axis can be adjusted for the first time, it must be readjusted if the lamp is replaced. After all, there was a problem that adjustment was difficult and time was required. The difficulty in adjusting the optical axis as described above is also a problem that it is difficult for the end user to replace the lamp. The present invention has been made to solve the above problems, and easily aligns the optical axis of the projector optical system prepared as an adjustment jig and the optical axis of the lamp without removing the lamp unit from the projector optical system main body. An object of the present invention is to provide a lamp unit of a liquid crystal projector device that can supply a lamp unit that has been adjusted in advance.
[0007]
[Means for Solving the Problems]
The lamp unit according to claim 1 is used for a liquid crystal projector that projects light transmitted through the liquid crystal panel by guiding light from the lamp to a projector optical system including a liquid crystal panel . the lamp unit of an exchange unit when a lamp holder made of L-shaped member having a lamp mounting window, and a base portion in which the lamp holder has a lamp holding portion fixing screw holes are placed, the lamp and And a lamp unit mounting portion fixed to the base portion so as to cover the lamp holding portion, and an optical axis adjusting rotation suspended from either the lamp holding portion or the contact surface of the base portion together through a shaft coupling both rotatably, et al provided in the bottom surface of the lamp holding portion on a concentric circle of the optical axis adjusting rotation axis is an arc shape extending in the circumferential direction of the concentric circles The holes, around the optical axis adjusting rotation axis of the lamp holding portion relative to said lamp holding portion and screwed into place of the fixing screw hole lamp holder fixing screw is located in the circular arc-shaped long hole of said base portion and wherein the Turkey that having a structure for fixing a desired angle by rotating Te.
[0008]
According to the lamp unit of the first aspect, since the lamp holding portion can be fixed at a desired angle in the horizontal direction with respect to the base portion , the optical axis can be adjusted without removing the lamp from the lamp holding portion .
[0009]
The lamp unit according to claim 2 is used for a liquid crystal projector that projects light transmitted through the liquid crystal panel by guiding light from the lamp to a projector optical system including a liquid crystal panel . the lamp unit of an exchange unit when a lamp holding portion provided outs optical axis adjusting cutting the side wall upper portion of the side wall with the L-shaped member having a lamp mounting window, has a lamp holding portion fixing screw hole A base part on which the lamp holding part is placed, and an optical axis adjusting window provided at a position corresponding to the optical axis adjusting notch are fixed to the base part so as to cover the lamp and the lamp holding part. , the ceiling portion and a said lamp holding portion lamp unit mounting portion a driver insertion hole corresponding to the position is provided in the fixing screw hole, of the lamp holder or the base portion Via an optical axis adjusting rotary shaft provided vertically on one of contact surfaces with connecting both rotatably, setting is concentrically of the optical axis adjusting rotation axis at the bottom surface of the lamp holding portion, With this arc-shaped elongated hole extending in the circumferential direction of the concentric circle, the lamp holder is held against the lamp-holding section fixing screw screwed into the lamp-holding section fixing screw hole located in the arc-shaped elongated hole of the base section. part of it is rotated around the axis rotation for adjusting the optical axis have a structure for fixing a desired angle, when the optical axis adjustment, from said optical axis adjusting window of the lamp unit mounting portion lamp holding portion The optical axis adjustment notch is pressed to rotate the lamp holding portion to adjust the optical axis, and then the lamp holding portion fixing screw of the base portion is tightened from the driver insertion hole.
[0010]
According to the lamp unit of claim 2, after adjusting the optical axis from the optical axis adjustment window in a state where the lamp unit is attached to the projector optical system body prepared as an adjustment jig in advance, the lamp holder is fixed from the driver insertion hole. Since the screw can be tightened, the optical axis of the optical system can be adjusted to the optimum condition while energizing the lamp and confirming the projected image. Accordingly, it is possible to supply the lamp unit with the optical axis adjusted.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
In order to develop an optical axis adjustment mechanism that facilitates lamp replacement of the liquid crystal projector apparatus, various analyzes have been made on the causes of performance deterioration such as illuminance reduction and color unevenness due to optical axis deviation. As a result, the polarization conversion element 69 in FIG. It was found that this greatly depends on the shift in the direction perpendicular to the direction of the eyes of the slits to be combined. (In the case shown in FIG. 6, since the eyes of the slit are vertical stripes, the deviation of the optical axis greatly depends on the horizontal direction.) Therefore, in the present invention, the optical axis in the direction orthogonal to the slit (horizontal direction in the apparatus). Focusing on easy adjustment, and considering that the lamp unit is a replacement unit, there is no adjustment on the projector optical system 67 main body side, and adjustment is possible only with the lamp unit side components. Considered so.
[0012]
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a disassembled perspective view showing a lamp mounting optical axis adjusting mechanism. FIGS. 2, 3, 4, and 5 respectively show a lamp unit lamp holding portion, a lamp unit base portion, a lamp unit mounting portion, and an optical axis. It is an enlarged view of the window part for adjustment. 2 to 5, the same parts as those in FIG. 1 are denoted by the same reference numerals.
In the figure, 1 is a lamp with a reflector, 2 is a lamp optical axis, 3 is a lamp fixing spring, 4 is a lamp holding part, 5 is a notch for holding a spring, 6 is a hook, 7 is a rotating shaft hole for adjusting the optical axis, 8 is an elongated hole for fixing the lamp holding part to the base part, 9 is a fixing screw, 10 is a notch for adjusting the optical axis, 11 is a base part, 12 is a rotating shaft for optical axis adjustment, and 13 is a lamp holding part. A female screw for fixing, 14 a positioning pin for the lamp unit mounting portion, 15 a fixing hole for the lamp unit mounting portion, 16 a fixing screw for the lamp unit mounting portion, 17 a lamp unit mounting portion, 18 Is a positioning pin insertion hole for the base portion 11, 19 is a female screw for fixing the base portion 11, 20 is an optical axis adjustment window for operating the optical axis adjustment notch 10, and 21 is for turning the fixing screw 9. Screwdriver insertion hole A.
[0013]
The main part of the lamp unit includes a lamp holding part 4 that holds the lamp 1 with a reflector, a base part 11 that supports the lamp holding part 4, and a lamp unit mounting part 17 , and includes a lamp holding part 4 and a base part 11. A rotation shaft 12 and a rotation shaft hole 7 are provided in the optical axis adjustment direction. Further, the lamp holder 4 and the base 11 are fixed to each other by using an arc-shaped elongated hole structure extending in the circumferential direction around the rotating shaft 12 so that the optical axis can be adjusted steplessly. . The optical axis adjusting notch 10 provided in the side wall upper portion of the side wall with the L-shaped member of the lamp holding portion, after mounting the lamp unit mounting section 17, screwdriver from the optical axis adjusting window 20 of the lamp unit mounting portion 17 Etc. to make the optical axis adjustable. Further, the lamp unit mounting portion 17 is provided with a screwdriver insertion hole 21 for turning a fixing screw, whereby the lamp holding portion 4 can be fastened to the base portion 11 after the optical axis adjustment. That is, the optical axis can be adjusted with the lamp unit attached to the projector optical system 67 main body prepared in advance as an adjustment jig .
[0014]
Hereinafter, details will be described in order. As shown in FIG. 2, the lamp with reflector 1 is fixed to the lamp holding portion 4 with a spring 3, a spring holding notch 5, and a hook 6. The bottom surface of the lamp holder 4 has a rotary shaft hole 7 serving as a rotation axis for adjusting the optical axis, and an arc-shaped elongated hole 8 for fixing the lamp holder base portion that can be adjusted in the circumferential direction around the rotary shaft hole. Two portions and a notch 10 for adjusting the optical axis are provided, and a rotating shaft 12 for adjusting the optical axis, two female screws 13 for fixing the lamp holding portion shown in FIG. a positioning pin 14 at two locations, and fixing holes 15 two positions the lamp unit mounting section 17, Ru combination with the base portion 11 provided with. Before adjusting the optical axis, the lamp holder fixing screw 9 for fixing the fixing elongated hole 8 and the lamp holder fixing female screw 13 is temporarily tightened, and the optical axis adjusting rotary shaft 12 of the base 11 is centered. As a result, the lamp holder 4 can be rotated. FIG. 4 shows the lamp unit mounting portion 17. The lamp unit mounting portion 17 includes two positioning pin insertion holes 18 for the base portion 11, two base portion fixing female screws 19, one optical axis adjustment window 20, and a lamp holding portion fixing screw 9. Two screwdriver insertion holes 21 for turning are provided.
[0015]
The assembly and adjustment of each part will be described. First, in assembling the lamp unit, the lamp 1 is fixed to the lamp holding portion 4, and the rotation shaft hole 7 of the lamp holding portion 4 is inserted into the optical axis adjusting rotation shaft 12 of the base portion 11. Attach to the base 11 with the fixing screw 9. When the lamp holding portion fixing screw 9 is tightened, the lamp holding portion fixing screw 9 is temporarily fixed so that the optical axis can be adjusted later. Further, these are inserted and fixed to the lamp unit mounting portion 17. Then, the lamp unit mounting portion 17 is adjusted of the being secured to the projector optical system 67 body optical axis is performed.
[0016]
In this state, the lamp 1 is energized to project an image on the screen. The projected image is preferably a test pattern for easy and accurate adjustment. As shown in FIG. 5, the adjustment is performed by inserting a flathead screwdriver into the optical axis adjustment window 20 of the lamp unit mounting portion 17 and finely adjusting the position of the optical axis adjustment notch 10 of the lamp holding portion 4. 11 is performed by slowly rotating the lamp holder 4 around the optical axis adjusting rotary shaft 12 and searching for a bright point and less uneven color while watching the projected image.
When the optimum condition is obtained, a Phillips screwdriver is inserted from the lamp holder fixing screw driver insertion hole 21 of the lamp unit mounting portion 17, and the lamp holder fixing screw 9 is tightened to fix the optical axis.
[0019]
【The invention's effect】
According to the present invention, since the optical axis can be adjusted without removing the lamp unit from the optical system main body, the number of work steps required for the adjustment can be greatly reduced. Further, since it becomes possible to supply the lamp unit with the optical axis adjusted, the user only has to replace the lamp unit, and the optical axis adjustment is not required at all.
[Brief description of the drawings]
FIG. 1 is a perspective view of a lamp mounting optical axis adjusting mechanism showing an embodiment of the present invention.
FIG. 2 is an enlarged view of a lamp holding portion of FIG.
FIG. 3 is an enlarged view of a lamp unit base portion of FIG. 1;
4 is an enlarged view of a lamp unit mounting portion of FIG. 1. FIG.
5 is an enlarged view of the optical axis adjusting notch portion of FIG. 1. FIG.
FIG. 6 is a perspective view showing a conventional optical system and lamp unit structure.
FIG. 7 is a cross-sectional view showing a lamp structure.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Lamp with reflector 2 Lamp optical axis 3 Spring 4 Lamp holding part 5 Spring holding notch 6 Hook 7 Optical axis adjusting rotating shaft hole 8 Fixing arc-shaped slot 9 Lamp holding part fixing screw 10 Optical axis adjusting notch DESCRIPTION OF SYMBOLS 11 Base part 12 Optical axis adjustment rotating shaft 13 Female screw 14 for fixing a lamp holding part 14 Positioning pin 15 with a lamp unit mounting part Fixing hole 16 with a lamp unit mounting part Base fixing screw (fixed to a lamp unit mounting part)
17 Lamp unit mounting portion 18 Locating pin insertion hole with base portion 19 Base portion fixing female screw 20 Optical axis adjustment window 21 Lamp holding portion fixing screw driver insertion hole 61 Lamp 62 with reflector Lamp holding portion 63 Lamp optical axis 64 Spring 65 Spacer 66 Lamp unit attachment portion 67 Projector optical system 68 Projector optical system optical axis 69 Polarization conversion element 71 Lamp bulb 72 Lamp electrode 73 attached to the rear end Lamp electrode 73 attached to the front end 74 Reflector 75 A portion 76 Reflector reference plane

Claims (2)

A lamp unit for use in a liquid crystal projector for guiding light from a lamp to a projector optical system provided with a liquid crystal panel and projecting light transmitted through the liquid crystal panel. in the lamp holding portion made of L-shaped member having a lamp mounting window, and a base portion which lamp holder is mounted has a lamp holding portion fixing screw holes, so as to cover the lamp and the lamp holding portion A lamp unit mounting portion that is fixed to the base portion, and rotates both via an optical axis adjusting rotary shaft that is suspended from either the lamp holding portion or the contact surface of the base portion. thereby rotatably connected, is provided on a concentric circle of the optical axis adjusting rotation axis at the bottom surface of the lamp holding portion, the elongated arcuate slot in the circumferential direction of the concentric circles, the said base portion The desired angle of the lamp holding portion is rotated about the axis rotation for adjusting the optical axis with respect to the lamp holder fixing screw which is screwed into place in the lamp holder fixing screw holes located in the arc-shaped long hole Ranpuyuni' bets characterized by having a structure for fixing. A lamp unit for use in a liquid crystal projector for guiding light from a lamp to a projector optical system provided with a liquid crystal panel and projecting light transmitted through the liquid crystal panel. in is a lamp holding portion provided outs optical axis adjusting cutting into the side wall upper, lamp holding portion has a lamp holding portion fixing screw holes placed in the side walls with L-shaped member having a lamp mounting window An optical axis adjustment window is provided at a position corresponding to the optical axis adjustment notch, and fixed to the base portion so as to cover the base portion , the lamp and the lamp holding portion, and the lamp holding portion is provided on the ceiling portion. part fixed and a lamp unit mounting portion a driver insertion hole corresponding to the position is provided in the screw hole, the lamp holder or either one of vertically abutting surface of the base portion It was both through the optical axis adjusting rotary shaft while rotatably connected, is provided at the bottom surface of the lamp holding portion on a concentric circle of the optical axis adjusting rotary shaft, a circle extending in the circumferential direction of the concentric circles the arc-shaped long hole, the lamp holding section rotating shaft for adjusting the optical axis of the lamp holding portion relative to the fixing screw hole lamp holder fixing screw which is screwed into place in which is located the circular arc-shaped long hole of said base portion Focusing is rotated to have a structure for fixing a desired angle, when the optical axis adjustment, to press the cutout which for optical axis adjustment of the lamp holding portion from the optical axis adjusting window of the lamp unit mounting portion A lamp unit characterized in that after the lever holding portion is rotated to adjust the optical axis, a lamp holding portion fixing screw of the base portion is tightened from the driver insertion hole.

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