JPH04138491A - Mechanism for adjusting position of liquid crystal panel - Google Patents

Abstract

PURPOSE:To allow the synthesis of color images on a screen to be projected with these images by adjusting the position of a transmission type liquid crystal panel by 3 sheets of moving plates. CONSTITUTION:The X moving plate 38 on a lens base 34 is displaced with 3 pieces of pipes 48, 48, 48 as guides by rotating an eccentric cam 50 fitted to a shaft 34a provided on a lens base. The X adjustment is ended at the exactly desired adjustment point. The Y moving plate 40 makes adjustment in a Y direction with two pieces of pipes 60, 60 as guides by the rotation of a conversion cam 62 fitted to a shaft 38c mounted to the X moving plate 38. Further, the theta moving plate 42 for mounting the liquid crystal panel on the Y moving plate 40 makes adjustment in an theta direction by the fitting of the projections 42a, 42a of this moving plate and the guide parts 40c, 40c of the Y moving plate. Since the liquid crystal panel 10 is mounted to the theta moving plate 42 at this time, the panel follows up the movement in the X, Y, theta directions. The exact synthesis of the primary colors is executed in this way.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a position adjustment mechanism for a liquid crystal panel of a color liquid crystal projector.

(B) Conventional Technology A color liquid crystal projector normally reproduces a color image by matching images created by liquid crystal panels for red (R), green (G), and blue (B) on a screen.

In such a liquid crystal projector, it is necessary to adjust the position of at least two of the three liquid crystal panels for RGB.

FIG. 5 shows an example of the position adjustment mechanism. (10) is RGB
One of the liquid crystal panels (12) is a base. (1
4) is a movable plate to which the liquid crystal panel (10) is fixed.

(16) (16) (16) (16) (16) (16) is an adjustment screw for adjusting the position of the moving plate (14).

(c) Problems to be Solved by the Invention In the structure shown in FIG. 5, the adjustment screws (16) to (16) are located on all sides of the liquid crystal panel (10), so when three liquid crystal panels of RGB are arranged side by side, The interval becomes large. Further, the movement of the liquid crystal panel cannot be adjusted unless three of the opposing adjustment screws (16) are adjusted at once.

(d) Means for Solving the Problems The present invention provides at least two transmissive liquid crystal panels among the red, blue, and green transmissive panels of a liquid crystal projection, and three movable plates (38) (40). ) (42) for X, Y, θ
It is characterized by combining color images on a projected screen by adjusting the position in the direction.

The present invention provides an X-movement plate (38) provided on a lens base (34) whose movement direction is limited to the X direction, and a first shaft (34a) provided on the lens base (34).
) by fitting and rotating the X moving plate (38).
X-direction adjustment eccentric cam (50) that adjusts the X-direction position of
a Y-moving plate (40) provided on the X-moving plate (38) and whose movement direction is limited to the Y direction; and a second shaft (40) provided on the X-moving plate (38).
38c) and rotate it, the Y moving plate (
Y-direction adjustment eccentric cam (
62), and θ rotatably mounted on the Y moving plate (40).
A moving plate (42) and a condensing lens (30) fixed to this θ moving plate (42)
and a liquid crystal panel (10), the X moving plate (38), the Y moving plate (40), and the θ moving plate (42).
) to the lens base (34) with screws (64), (64), and (64). Since dedicated moving plates (38), (40), and (42) are used for adjustment, the adjustment is easy.

Further, in the present invention, the X moving plate (
38) is adjusted in position in the X direction by the first eccentric cam (50). The Y moving plate (40) is a second eccentric cam (62)
The position is adjusted in the Y direction. Then, the θ moving plate (4
2) is rotatably provided on the Y moving plate (40).

(F) Embodiment An embodiment of the present invention will be described with reference to FIGS. 1 to 4.

FIG. 4 is a side sectional view of the screen transmission type liquid crystal projector. FIG. 4 shows one optical system among RGB.

(20) is a screen, and (22) and (24) are mirrors.

(26) is a light source, (28) is a condenser lens, (10) is a liquid crystal panel, and (30) is a lens.

FIG. 3 shows three RGB optical systems. (32) (32
) (32) is a dichroic mirror, and the light source (26
) is separated into the three primary colors of BGH.

(30) (30) (30) is a condenser lens. (10
) (10) (10) is a liquid crystal panel, and (34) is a lens base, which serves as a base for three lenses (30) (30) (30).

(36) (36) (36) is the liquid crystal panel (10) (
10) It is a moving plate with 3 optical systems equipped with (10),
In FIG. 3, the drawings are simplified and shown as one sheet.

In order to adjust the position of the liquid crystal panel using the moving plate, for example, if the central green optical system is fixed, the liquid crystal panels of the blue and red optical systems on both sides may be adjusted. In other words, position adjustment is performed using at least two liquid crystal panels.

FIG. 1 is a diagram for explaining the main part of this embodiment.

The outline will be explained from the bottom of FIG.

(34) C is the lens base mentioned above. (38) (4
0) (42) are the three movable plates (36) mentioned above.

(10) is the liquid crystal panel mentioned above. (44) is a condenser lens plate to which the aforementioned condenser lens (30) is attached. (30) is a condenser lens.

The three movable plates will be explained together with related parts.

(38) is an X moving plate. This X moving plate (38) is provided with elongated holes (38a) (38a) (38a) that are long in the X direction. And these long holes (38a) (38a) (
38a) has a pipe (48) (
48) (48) is inserted. Therefore, the X moving plate (38) is in the X direction and has long holes (38a) (38a).
It is possible to move only within the permissible range of (38a).

(34a) is a shaft provided on the lens base (34). (50) is an eccentric cam (the shirt)
(34a) is provided with a hole (50a) into which the hole (34a) is inserted. (
38b) is a long hole, which is provided in the X moving plate (38).

The eccentric cam (50) is installed in this elongated hole (38b).
The peripheral surfaces of the two come into contact with each other.

That is, by rotating the eccentric cam (50),
The moving plate (38) moves in the X direction.

(40) is an X moving in the Y direction perpendicular to the aforementioned X direction.
It is a moving board. This X moving plate (40) is provided with elongated holes (40a) (40a) that are long in the Y direction. The elongated holes (40a) (40a) are provided with washers (54) (
54), X moving plate (
The pipes (60) (60) are fitted by the screws (52) (52) screwed into the pipes (38). Therefore, the X moving plate (40) can only move in the Y direction and within the allowable range of the elongated holes (40a).

(38c) is a shaft provided on the X moving plate (38). (62) is an eccentric cam, and the shaft (38) is an eccentric cam.
C) is provided with a hole (62a) into which the hole (62a) is inserted. (40b)
is a long hole, which is provided in the X moving plate (40). The circumferential surface of the eccentric cam (62) comes into contact with this elongated hole (40b).

In other words, by rotating the eccentric cam (62),
The moving plate (40) moves in the Y direction.

(42) is a θ-moving plate that rotates. This θ moving plate (42) has arc-shaped protrusions (42a) (42a) on the lower side.
) is provided. These protrusions (42a) (42a) are provided on the Y moving plate (40).
0C) and guides movement of the θ moving plate (42) in the rotational direction (θ direction).

(64) (64,) (64) is three moving plates (38)
These are screws for fixing (40) and (42) to the lens base (34).

(66) (66) (66) are screws for attaching the liquid crystal panel (10) to the θ movement plate (42). (68) (68
) (6g) is a screw that attaches the condenser lens mounting plate (44) to which the condenser lens (30) is attached to the θ movement plate (42).

FIG. 2 shows a cross-sectional view of the installation of the screw (52). This screw (52) connects the X moving plate (40) with the washer (54).
) and the wavy washer (56), it is possible to perform adjustment with a sense of resistance when adjusting in the Y direction.

The installation of this embodiment will be explained. Lens base (34)
The upper X moving plate (38) rotates the eccentric cam (50) that fits into the shaft (34a) provided on the lens base, thereby moving the three pipes (48) (48)
(48) as a guide. Therefore, the X adjustment is finished at just the right adjustment point.

Next, the X moving plate (40) moves the eccentric cam (62) that fits into the shaft (38c) attached to the X moving plate (38).
) is rotated to perform adjustment in the Y direction using the two pipes (60) and (60) as guides.

Next, install the liquid crystal panel on the X moving plate (40) using the θ
The moving plate (42) has protrusions (42a) (42) on this moving plate.
Adjustment in the θ direction is performed by fitting a) with the guide portions (40c) (40c) of the X moving plate. At this time, since the liquid crystal panel (10) is attached to the θ movement plate (42), it follows the movement in the X, Y, and 5θ directions.

(G) Effects of the Invention In the present invention, since the position of the liquid crystal panel can be adjusted in the X, Y, and θ directions, it is possible to accurately synthesize the three primary colors.

[Brief explanation of drawings]

FIG. 1 is an exploded perspective view of an example of the liquid crystal panel position adjustment mechanism of the present invention, and FIG. 2 is a sectional view showing a guide portion of an X-movement plate. FIG. 3 is a diagram showing an R-G-B optical system of a liquid crystal projection, and FIG. 4 is a side sectional view showing the optical system. FIG. 5 is a perspective view showing a conventional liquid crystal panel adjustment mechanism. (38)...X moving plate (moving plate), (40)...Y moving plate (moving plate), (42)...θ moving plate (moving plate), (34)... Lens base (base), (34,a)・
... Shaft (first shaft), (50) ... Eccentric cam (X direction adjustment eccentric cam) (62) ... Eccentric cam (
Y direction adjustment eccentric cam) (38c)...shaft (second
shaft), (30)...Condensing lens, (10)...Liquid crystal panel, (64)...Screw (screw fixing means).

Claims (2)

[Claims] (1) At least two of the red, blue, and green transmissive liquid crystal panels of the liquid crystal projection are moved in X, Y, and θ by three moving plates (38), (40, and 42).
A liquid crystal panel position adjustment mechanism characterized in that a color image on a projected screen is synthesized by adjusting the position in the direction. (2) Provided on the lens base (34) and whose moving direction is X
The X movement plate (38) is fitted in the first shaft (34a) provided on the lens base (34) and rotated.
an X-direction adjustment eccentric cam (50) that adjusts the position in the direction; a Y-movement plate (40) provided on the X-movement plate (38) and whose movement direction is limited to the Y-direction; )
a Y-direction adjustment eccentric cam (62) that adjusts the position of the Y-movement plate (40) in the Y-direction by fitting into and rotating a second shaft (38c) provided above; 40) θ moving plate (4
2) and a condenser lens (30) fixed to this θ moving plate (42)
and a liquid crystal panel (10), the X moving plate (38), the Y moving plate (40), and the θ moving plate (42).
) screw fixing means (64) (64) (64) for screwing and fixing the lens base (34) to the lens base (34).