JP2001100185A - Structure and method for mounting liquid crystal display element in liquid crystal projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a structure and method for mounting a liquid crystal display element in a liquid crystal projector permitting highly accurate adjustments associated with downsizing of the liquid crystal display element and high definition thereof, by eliminating change with the elapse of time after adjusting alignment of the liquid crystal display element with a synthesis means of each color light. SOLUTION: This is a mounting structure of the liquid crystal display element in the liquid crystal projector, and the liquid crystal display element is mounted on the synthesis means through an intermediate member having a temporary UV fixing part for tacking and a solder fixing part for permanent fixing.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting structure and a mounting method of a liquid crystal display element in a liquid crystal projector, and more particularly to a method for eliminating a change with time after alignment adjustment, and reducing the size of the liquid crystal display element and increasing the definition. It is an object of the present invention to realize a structure and a method for mounting a liquid crystal display element in a liquid crystal projector that can be adjusted with high precision.

[0002]

2. Description of the Related Art Conventionally, an optical means for separating a light source into red, blue and green lights, a liquid crystal display element and a driving means for modulating each light, and a synthesizing means for synthesizing the modulated red, blue and green lights In a liquid crystal projector having a projection lens for projecting an image synthesized with a liquid crystal display, such a liquid crystal display element has been subjected to a complicated mechanical mechanism when performing alignment adjustment or the like to a means for synthesizing each color light. On the other hand, recently, with the miniaturization and high definition of the liquid crystal display element, a high-precision fixing method has become mainstream, and a fixing method using an adhesive and a fixing method using solder have become common. I have. As a conventional example of such a method using an adhesive, there is known a method disclosed in Japanese Patent Application Laid-Open No. 10-01994, in which bonding is performed after alignment adjustment between a liquid crystal display element and means for synthesizing each color light. Also,
The fixing method by soldering is generally performed by large-scale equipment.

[0003]

However, in a method in which bonding is performed after alignment adjustment as in the method described in Japanese Patent Application Laid-Open No. H10-010994, it is difficult to maintain the quality because a change with time occurs. There is a problem in adopting it as a fixing method when performing high-precision adjustment accompanying the miniaturization and high definition of the display element. In addition, this method requires an adjusting member for adjusting the position of the light valve in addition to the above, which causes problems such as an increase in the number of parts, accumulation of errors in accuracy, and an increase in adjustment allowance. Have. Further, the fixing method using solder requires a large-scale facility for this, and requires a large capital investment.

Accordingly, the present invention has been made to solve the above-mentioned problems in the prior art, and eliminates the occurrence of a change with time after alignment adjustment between a liquid crystal display element and a means for synthesizing each color light.
It is an object of the present invention to provide a mounting structure and a mounting method of a liquid crystal display element in a liquid crystal projector that can perform high-precision adjustment with a reduction in size and definition of the liquid crystal display element.

[0005]

In order to achieve the above object, the present invention provides a liquid crystal display device mounting structure and a mounting method in a liquid crystal projector as described in the following (1) to (5).
It is characterized in that it is configured as in (9). (1) The present invention provides a separating optical unit for separating a light source into light beams of a plurality of colors, a liquid crystal display element for modulating each of the separated light beams, and combining the light beams modulated by the liquid crystal display device. Combining means, a mounting structure of the liquid crystal display element in a liquid crystal projector having a projection lens for projecting the image light combined by the combining means,
The liquid crystal display element is attached to the synthesizing means via an intermediate member having a temporary UV fixing portion for temporary fixing and a solder fixing portion for permanent fixing. (2) In the present invention, the intermediate member includes a first intermediate member directly attached to the synthesizing means and a second intermediate member fixed to the liquid crystal display element. The temporary fixing UV fixing portion is formed on one of the second intermediate members. (3) The present invention is characterized in that the temporary UV fixing portion for temporary fixing is constituted by a plurality of projections. (4) The present invention is characterized in that the first intermediate member and the second intermediate member have a solder fixing portion for permanent fixing that enables solder fixing at a plurality of locations. (5) In the invention, the light source is separated into light beams of a plurality of colors, each of the separated light beams is modulated by a liquid crystal display element, and the light beams modulated by the liquid crystal display element are combined.
A method for mounting the liquid crystal display element in a liquid crystal projector that projects onto a projection surface via a projection lens, wherein the liquid crystal display element is aligned, and the synthesizing unit is adjusted via a UV temporary fixing unit provided on an intermediate member. After being temporarily fixed to the intermediate member, it is permanently fixed by a solder fixing portion provided on the intermediate member. (6) In the present invention, the intermediate member is formed by a first intermediate member directly attached to the synthesizing means and a second intermediate member fixed to the liquid crystal display element. A UV temporary fixing portion for temporary fixing is formed on one of the second intermediate members, and after temporarily fixing by the UV temporary fixing portion, formed between the first intermediate member and the second intermediate member. It is characterized in that it is permanently fixed by a solder fixing portion. (7) The present invention is characterized in that the temporary UV fixing portion for temporary fixing is formed by a plurality of projections. (8) The present invention is characterized in that the solder fixing portion is formed at a plurality of positions between the first intermediate member and the second intermediate member. (9) In the present invention, one of the liquid crystal display elements for each color in the liquid crystal display element is aligned and adjusted to adjust the UV light.
After being temporarily fixed to the synthesizing means by the temporary fixing section, the same adjustment procedure is repeated for each of the temporarily fixed liquid crystal display elements, and then the liquid crystal display elements for other colors are sequentially temporarily fixed, and then permanently fixed. It is characterized by:

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention can achieve the above-described object of the present invention by the above-described configuration. More specifically, the present invention is implemented by the following embodiments, for example. It is possible. In the embodiment of the present invention, the configuration includes a separating optical unit that separates a light source into R, G, and B lights, and a combining unit that combines the separated R, G, and B lights transmitted through a liquid crystal panel. In a liquid crystal projector having a projection lens for projecting image light, an L-shaped base member for mounting the projection lens and a combining means unit member for combining light is formed. Then, a synthesizing means for synthesizing R, G, and B lights is arranged on the base member, and the first intermediate member for fixing is mounted on the synthesizing means.
B: The structure is directly attached to each surface, and the synthesizing means is adhered to a component interposed between the base member and the fixing means, and is fixed to the base member. The interposed part can be eliminated depending on the material of the base member. Further, each liquid crystal display element for modulating each light is fixed to the second intermediate member, and at least one of the first intermediate member and the second intermediate member has a plurality of resin (adhesive) fixing projections. Further, a plurality of metal (solder) fixing portions are arranged on the first intermediate member and the second intermediate member. The fixing space in the optical axis direction between the resin fixing portion and the metal fixing portion in the above configuration is set so that the fixing space secures the minimum space that can be fixed. With these configurations, when performing alignment adjustment of the liquid crystal projector, it is possible to perform permanent fixing by soldering after performing UV temporary fixing, and it is possible to perform high-precision fixing with the miniaturization and high definition of the liquid crystal display element size Becomes Further, according to the present invention, the number of components can be minimized, the space between the optical axis space and the adjustment mechanism can be reduced, and the size of the main part of the optical system is reduced. An optical unit configuration can be used.

[0007]

Embodiments of the present invention will be described below.
FIG. 1 is a plan view showing a configuration of an embodiment of the present invention, and FIG.
1 is a side view of FIG. 1, FIG. 3 is a view of FIG. 1 viewed from the panel side (Gch), and FIG. 4 is a partial detailed view. In FIG. 1, reference numeral 1 denotes a projection lens, 2 denotes an L-shaped base, 9 denotes a cross dichroic prism for synthesizing R, G, and B lights.
Is attached to the L-shaped base 2 so that the image light synthesized by the cross dichroic prism 9 can be enlarged and projected.
Reference numeral 3 denotes a prism base, which adheres and holds the cross dichroic prism 9.

In the cross dichroic prism 9, a phase plate and a polarizing plate corresponding to each characteristic are attached to each surface on which each of R, G, and B color light is incident. 5a, 5b,
Reference numeral 5c denotes a first fixing plate, and the first fixing plates 5a, 5b, and 5c are attached to the R, G, and B surfaces of the cross dichroic prism 9, respectively. Further, the first fixing plates 5a, 5b, 5c
Are provided with a space for UV bonding for temporary fixing and a plurality of (three or more) solder fixing shapes for permanent fixing. Reference numerals 4a, 4b, and 4c denote RGB liquid crystal display elements for displaying video signals, and 6a, 6b, and 6c denote second fixing plates, which are liquid crystal display elements 4a, 4c.
Second fixing plates 6a, 6b, and 6c are fixed to screws b and 4c with screws, respectively, and UV bonding for temporary fixing to the second fixing plates 6a, 6b, and 6c. A plurality of protrusions (three or more places) and a plurality of solder fixing shapes for permanent fixing are provided (three or more places). In this embodiment, the space for UV bonding is formed on the first fixing plates 5a, 5b, 5c, and the projection for UV bonding is formed on the second fixing plate 6a,
6b, 6c, but this is reversed, and the projections for UV bonding are provided on the first fixing plates 5a, 5b, 5c.
In addition, the space for UV bonding is changed to the second fixing plate 6a,
6b, 6c. 7 is a cooling fin,
It is attached to the L-shaped base 2 and is configured to send the air volume from the cooling fan 8 to the liquid crystal display elements 4a, 4b, 4c.

Next, the operation procedure in the above configuration will be described. As preparation, a phase plate and a polarizing plate are attached to the cross dichroic prism 9 and then the fixing plate 5 is attached.
Then, the cross dichroic prism 9 is bonded to the prism base 3. Next, the cross dichroic prism 9 adhered to the prism base 3 is attached to the L-shaped base 2, and then the projection lens 1 is attached. The second fixing plates 6a, 6b, 6c are respectively connected to the liquid crystal display elements 4a, 4b, 4c with screws.

Next, the unit is mounted on a fixing device, and a UV adhesive is applied to the first fixing plates 5a, 5b, 5c. The liquid crystal display element 4b (Gch) is held by the chucking unit of the 6-axis device and set to the initial position, and the projection lens is focused and adjusted to the WIDE end state. After the focus adjustment, X, Y, and θ of six axes (X, Y, Z, θ, X tilt, Y tilt) are adjusted so as to face the screen. Next, X-direction tilt
The balance of the projection resolution over the entire screen is adjusted by tilting in the Y direction, the above procedure is repeated, alignment is adjusted to an optimum state, and UV bonding is performed by UV irradiation to temporarily fix.

Next, the liquid crystal display element 4a (Rch) and the liquid crystal display element 4c are compared with the liquid crystal display element 4b (Gch).
The adjustment procedure for (Bch) is sequentially repeated in the same manner as described above, so that the liquid crystal display element 4b (Gch) is in an optimal state (pixel shift
Resolution, etc.)
Adhere and temporarily fix. Thereafter, the liquid crystal display element 4a (R
ch), liquid crystal display element 4b (Gch), liquid crystal display element 4
Finally, it is confirmed that there is no problem in the alignment adjustment of c (Bch), and final fixing by soldering is performed. After the final confirmation of the alignment after fixing, if there is no problem, the adjustment is completed.

[0012]

As described above, according to the present invention, a change with time after the alignment adjustment between the liquid crystal display device and the means for synthesizing each color light is eliminated, and the size of the liquid crystal display device is reduced in size and high definition. It is possible to realize mounting of a liquid crystal display element in a liquid crystal projector capable of performing high-precision adjustment accompanying the development. Further, according to the present invention, the capital investment does not become enormous unlike the conventional solder fixing and the like,
Adhesion can be achieved by high-precision alignment adjustment with reduced capital investment.

[Brief description of the drawings]

FIG. 1 is a plan view showing a configuration of a liquid crystal projector according to an embodiment of the present invention.

FIG. 2 is a side view of the liquid crystal projector of FIG.

FIG. 3 is a view of the liquid crystal projector of FIG. 1 as viewed from a panel side.

FIG. 4 is a partial detailed view of a configuration of a liquid crystal projector according to the embodiment of the present invention.

[Explanation of symbols]

1: Projection lens 2: L-shaped base 3: Prism pedestal 4a, b, c: Liquid crystal display element 5a, b, c: Plate 1 (for cross dichroic prism) 6a, b, c: Plate 2 (for liquid crystal panel) 7 ： Cooling fin 8 ： Fan 9 ： Cross dichroic prism

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04N 5/74 H04N 5/74 K F term (Reference) 2H088 EA14 EA15 EA18 EA19 FA16 FA18 HA13 HA15 HA20 HA22 HA23 HA24 MA04 MA05 MA06 MA16 2H089 HA40 QA12 UA05 5C058 BA30 BA35 EA26 5C096 AA24 AA26 BA01 BA05 BB26 BB34 BC02 BC04 BC20 CB10 CE02 CE07 CG02 CG13 CJ13 CJ18 DA08 DC03 DC04 DC05 EB18 EB19 BB19 AB13A12A15A18A13A12A15A18A19 GG04 GG08 KK03 LL15

Claims (9)

[Claims] 1. Separating optical means for separating a light source into light beams of a plurality of colors, a liquid crystal display element for modulating each of these separated light beams, and a synthesizing means for synthesizing each of the light beams modulated by the liquid crystal display element. And a mounting structure of the liquid crystal display element in a liquid crystal projector having a projection lens for projecting image light synthesized by the synthesizing means, wherein the liquid crystal display element is a temporary fixing UV temporary fixing portion and a permanent fixing. A liquid crystal display element mounting structure in a liquid crystal projector, wherein the liquid crystal display element is mounted on the synthesizing means via an intermediate member having a solder fixing portion. 2. The intermediate member comprises a first intermediate member directly adhered to the synthesizing means, and a second intermediate member fixed to the liquid crystal display element. The mounting structure for a liquid crystal display element in a liquid crystal projector according to claim 1, wherein the temporary fixing UV fixing portion is formed on one of the intermediate members. 3. The mounting structure for a liquid crystal display element in a liquid crystal projector according to claim 2, wherein the temporary fixing UV fixing portion is constituted by a plurality of projections. 4. The fixing device according to claim 2, wherein said first intermediate member and said second intermediate member each have a solder fixing portion for permanent fixing which enables solder fixing at a plurality of positions. 4. A mounting structure of a liquid crystal display element in the liquid crystal projector according to 3. 5. A light source is separated into light beams of a plurality of colors, each of the separated light beams is modulated by a liquid crystal display element, and the light beams modulated by the liquid crystal display element are combined, and the combined light beams are transmitted through a projection lens. A method of mounting the liquid crystal display element in a liquid crystal projector that projects onto a projection surface, wherein the liquid crystal display element is aligned, and the liquid crystal display element is temporarily fixed to the synthesizing means via a UV temporary fixing portion provided on an intermediate member. The method for attaching a liquid crystal display element in a liquid crystal projector, wherein the liquid crystal display element is permanently fixed by a solder fixing portion provided on an intermediate member after the fixing. 6. The intermediate member is formed by a first intermediate member directly adhered to the synthesizing means and a second intermediate member fixed to the liquid crystal display element.
A UV temporary fixing portion for temporary fixing is formed on one of the intermediate members, and after temporarily fixing by the UV temporary fixing portion, a solder formed between the first intermediate member and the second intermediate member. 6. The method according to claim 5, wherein the liquid crystal display element is permanently fixed by a fixing portion. 7. The method according to claim 6, wherein the temporary fixing UV fixing portion is formed by a plurality of projections. 8. The liquid crystal display device according to claim 6, wherein a plurality of the solder fixing portions are formed between the first intermediate member and the second intermediate member. Mounting method. 9. A liquid crystal display element for each color in said liquid crystal display element is aligned and adjusted and temporarily fixed to said synthesizing means by said UV temporary fixing portion. The same adjustment procedure was repeated for each liquid crystal display element for other colors and temporarily
9. The method according to claim 5, wherein the main fixing is performed.
Item 14. A method for mounting a liquid crystal display element in the liquid crystal projector according to item 5.