KR0132339Y1 - Integrated layers structure for liquid crystal display projector - Google Patents

Abstract

When the liquid crystal module stack 53 is formed, a plurality of liquid crystal modules 52 are fixed by the fixing member 61 in a state in which the plurality of liquid crystal modules 52 are embedded in each bezel 59 and the housing 60. In order to prevent the entire thickness from becoming thicker than necessary, each of the supporting members 1 having a thickness suitable for the minimum distance between the liquid crystal display elements 54, which excludes the interference between the liquid crystal display elements 54, Inserted to surround the substrate 56 connected to the liquid crystal display device 54, and molded it with a conventional insulating bond (2) or the like to form a liquid crystal module (3), the liquid crystal module (3) is laminated and laminated The entire liquid crystal module 3 is incorporated into the bezel 5 and the housing 6 so that the thickness of the liquid crystal module stack 7 used in the projector can be made thin.

Description

Liquid Crystal Module Stacked Structure for Projector

1 is a partially enlarged cross-sectional view illustrating a structure of a liquid crystal module laminate for a projector according to the present invention.

2 is a side view showing a typical projector.

3 is a cross-sectional view showing a structure of a liquid crystal module stack applied to the projector shown in FIG.

* Explanation of symbols for main parts of the drawings

1 support member 2 insulation bonding

3: liquid crystal module 4: display window

5: bezel 6: housing

7: liquid crystal module laminate

[Industrial use]

The present invention relates to a structure of a liquid crystal module stack for projectors, and more particularly, by applying a liquid crystal module stack using three liquid crystal modules to a projector, in realizing color or multicolor, the overall thickness of the liquid crystal module is maintained while maintaining a gap between the liquid crystal modules. It is related with the structure of the liquid crystal module laminated body for projectors which thinned.

[Prior art]

In general, a projector is a device that seats a film on an upper part of a light source, transmits the light of the light source to a transparent part other than an image formed on the film, and enlarges it with an enlarger to project it onto a screen.

As shown in FIG. 2, a general projector as described above includes an irradiation unit 50 having a light source (not shown) and a film (not shown) and a light emitted from the irradiation unit 50. The film is divided into an enlarged portion 51 for reflecting, while the film reproduces a still image, while the liquid crystal module 52 is seated on the upper portion of the irradiator 50 to display a motion image (not shown). Will be projected on.

As described above, when one image of the liquid crystal module 52 is seated on the upper portion of the irradiator 50 and the image is projected onto the screen, only black and white or gray color of a normal liquid crystal is expressed on the screen. As shown in the drawing, a plurality of the liquid crystal modules 52 are stacked and each is controlled like R, G, and B of the cathode ray tube to realize a multicolor or color.

As described above, in the liquid crystal module stack 53 in which the plurality of liquid crystal modules 52 are stacked, the substrate 56 on which the driver chip 55 is mounted on the liquid crystal display device 54 is connected by a flexible wire 57. And a plurality of liquid crystal modules 52 having a structure inherent in the bezel 59 having the display window 58 and the housing 60 coupled thereto, and fixed by the fixing member 61.

Of course, the irradiation unit 50 is located on the bottom surface of the liquid crystal module stack 53, and each signal is applied to each liquid crystal module 52 so that one color or multicolor image is reproduced and the liquid crystal display device 54 is disposed. ), The housing 60 is formed of a light transmissive material.

In this case, the intervals of the liquid crystal modules 52 must be maintained at a predetermined distance h so that they are normally operated without interference with each other. This is maintained by the bezel 59.

[Problem trying to solve]

However, as described above, the liquid crystal module stack 53 is formed by stacking the liquid crystal module 52 in which the liquid crystal display device 54 is embedded in each bezel 59 and the housing 60. There is a problem that the overall thickness H of the liquid crystal module stack 53 becomes thicker than necessary by the housing 60 and the bezel 59 in which the 54 is embedded.

Accordingly, an object of the present invention is to prevent the thickness of the entire liquid crystal module stack from being thickened more than necessary due to the plurality of liquid crystal modules being fixed by the fixing member in a state in which a plurality of liquid crystal modules are embedded in each bezel and the housing when forming the liquid crystal module stack. The present invention provides a liquid crystal panel for a projector.

[Means to solve the problem]

In order to realize the above object, the present invention inserts a support member having a thickness suitable for the minimum distance between liquid crystal display elements to exclude interference between the liquid crystal display elements so as to surround the substrates connected to the respective liquid crystal display elements. Forming a liquid crystal module by molding with a common insulating bond or the like, it is characterized in that the liquid crystal module is laminated and the entire stacked liquid crystal module is built into the bezel and the housing.

[Action]

The substrate connected by flexible wire to one liquid crystal display device is wrapped with a supporting member whose thickness is set to be suitable for the minimum distance to eliminate the interference between the liquid crystal display devices, molded with an insulating bond, and then laminated. By maintaining the gap between the liquid crystal display device and the bezel and the housing installed therein, the above-described stacking thickness of the support member and the thickness of the bezel and the housing become the entire thickness. It is thinner than thickness.

That is, each liquid crystal display device maintains a minimum distance by the support member and excludes the bezel and the housing that surround each other, thereby reducing the thickness of the bezel and the housing, thereby reducing the overall thickness.

In addition, the substrate wrapped by the supporting member may be molded with the supporting member to prevent vibration of the flexible wire due to the vibration, thereby reducing short circuit in the substrate and the liquid crystal display.

EXAMPLE

1 is a partially enlarged cross-sectional view showing a structure of a liquid crystal module stack for a projector according to the present invention, in which a substrate 56 attached to each liquid crystal display element 54 by a flexible wire 57 includes a support member 1. It is encapsulated by a conventional insulating bond (2) and formed into a liquid crystal module (3), and the liquid crystal module (3) is not only stacked in a plurality, but the liquid crystal module (3) is a display window (4) ) Is fixed in a state in which the bezel 5 and the housing 6 are formed.

Here, the support member 1 is formed to have a thickness h such that each of the stacked liquid crystal display elements 54 does not interfere with each other and is molded to the support member 1 by molding it with an insulating bond 2. The intrinsic substrate 56 and the support member 1 are integrated so that the substrate 56 does not flow by an external impact.

Of course, a normal irradiation unit (not shown) is located below the housing 6.

In addition, when the supporting member 1 is laminated with the molded liquid crystal module 3, the supporting member 1 is stacked, and the liquid crystal display device 54 with the supporting member 1 is maintained at a constant interval. In addition, the stacking thickness of the liquid crystal module 3 forms most of the entire thickness Hl of the entire liquid crystal module stack 7.

Since the overall thickness H1 of the liquid crystal module stack 7 is determined by adding the thickness of the bezel 5 and the housing 6 to the stack thickness of the support member 1, each liquid crystal display element 54 ), The thickness can be made thinner than that formed by covering the bezel 59 and the housing 60.

[Effect of design]

As described above, the present invention covers a substrate connected by a flexible wire to each liquid crystal display device with a support member formed to a minimum thickness such that interference is eliminated between the stacked liquid crystal display devices, and then molded with an insulating bond, and then molding the substrate into an insulating bond. There is an advantage in that the overall thickness can be made thin by the built-in.

Claims (1)

The substrate 56 connected by the flexible wires 57 of the liquid crystal display device 54 to the support member 1 formed to have a minimum thickness h spaced apart so that interference is eliminated between the liquid crystal display devices 54. Inserting and molding the support member 1 and the substrate 56 with an insulating bond 2 to form a liquid crystal module 3, and stacking the liquid crystal module 3 such that the support member 1 is in close contact with each other. And the liquid crystal modules (3) are built in the bezel (5) and the housing (6) on which the display window (4) is formed.