JP3722644B2 - Liquid crystal display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device that is transmitted and illuminated by, for example, an incandescent bulb with thermal radiation as a light source for illumination.
[0002]
[Prior art]
In general, as this type of liquid crystal display element, a liquid crystal is sealed between opposed electrodes, and the molecular alignment direction of the liquid crystal is changed by selectively applying a voltage between the electrodes, and a polarizing plate provided as necessary Liquid crystal display devices that control the transmission of light according to the relationship with the polarization axis are well known and widely used.
[0003]
This liquid crystal display device can be classified into a reflection type that uses external light rays and a transmission type that uses irradiation light of an illumination light source provided behind, depending on the illumination method. When used as a device, a transmissive liquid crystal display device that can display even when the surroundings are dark such as at night is suitable.
[0004]
As an illumination structure of this transmissive liquid crystal display device, for example, a transparent electrode is formed on the opposite surface, and a flat plate is formed behind a liquid crystal display element composed of two transparent substrates in which liquid crystal is sealed between the electrodes. A light guide system is generally used in which a light guide plate made of a transparent polycarbonate resin or the like is provided, and an illumination light source such as an incandescent lamp such as a tungsten lamp is provided on the back surface or side surface of the light guide plate.
[0005]
[Problems to be solved by the invention]
However, in recent years, for the purpose of increasing illumination brightness, instead of the light guide method, the irradiation light of an illumination light source composed of an incandescent bulb provided behind the liquid crystal display element is reflected directly or by a reflector to the liquid crystal display element. The light box system that is designed to irradiate is being adopted.
[0006]
By the way, an incandescent bulb used as a light source for illumination includes a visible ray and an infrared ray in a light ray emitted from a filament as a light emitting member, and when the infrared ray is received from behind, a light guide made of a transparent resin located near the incandescent bulb. The temperature of the light plate and diffuser plate rises, causing thermal deformation, adversely affecting the optical performance, and the temperature of the liquid crystal of the liquid crystal display element also rises, causing the liquid crystal to change to the liquid state and the desired voltage. A problem has arisen that the dependency characteristic cannot be maintained.
[0007]
As shown in FIGS. 3 and 4, in the conventional type light box system, a plurality of terminal portions connected to the transparent electrode of the liquid crystal display element a and exposed to the outside are provided with clip-shaped electrode holding portions. A lead pin b made of a thin rectangular wire is connected and fixed. The liquid crystal display element a is placed and fixed on a frame-shaped holder c made of synthetic resin, and the liquid crystal display is mounted on the frame-shaped holder c. An insertion hole d for receiving and guiding the lead pin b of the element a is provided, and the lower surface side of the frame-shaped holder c facing the display portion of the liquid crystal display element a is connected to the peripheral wall of the holder c so that the lower surface side is curved. A light case e that forms a surface is formed, and an illumination light source f is disposed on the bottom side of the light case e to constitute a liquid crystal display device. The holder c and the light case are generated by the heat generated by the illumination light source f. e In order to suppress the temperature rise of the parts, on the side wall below the light case e, vent g for communicating the inside and the outside of the light case e is provided at appropriate intervals.
[0008]
A printed circuit board h incorporating a circuit for driving the liquid crystal display element a is disposed behind the light case e, and each lead pin 2 of the liquid crystal display element a is soldered to the printed circuit board h. In addition, the illumination light source f is mounted on the printed circuit board h.
[0009]
Therefore, while the ventilation hole g provided at a proper position of the light case e can suppress the temperature rise inside the holder c and the light case e, the illumination light is lighted by the ventilation hole g provided in the side wall portion of the light case e. There is a problem that the light leaks out of the case e, and the amount of light applied to the liquid crystal display element a is reduced by the leaked light beam, resulting in a decrease in illumination efficiency. There is also a problem that the emitted light affects the lighting effect of external equipment.
[0010]
Therefore, in the present invention, the illumination brightness of the transmissive liquid crystal display element can be increased by using the light box method as compared with the conventional case, and the temperature rise in the light box due to the heat generated by the illumination light source is reduced. An object of the present invention is to provide a liquid crystal display device that can be suppressed.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, in claim 1, a liquid crystal display element is disposed on the front side of a frame-shaped holder made of an insulating material made of synthetic resin , and the holder and the liquid crystal display element are a printed board for mounting provided, the illumination light source for transmission illumination of the liquid crystal display device on the printed board from the back side is provided, and the holder of the light case for guiding the illumination light of the illumination light source to the liquid crystal display device provided integrally provided with a vent which communicates with the outside to the boundary portion of the mounting face portion of the holder located behind the side and the side wall portion located on the upper side of the light case of the liquid crystal display device, the The ventilation case communicates the inner side and the outer side of the light case by a labyrinth-shaped ventilation passage formed by the peripheral wall portion of the holder and the side peripheral wall portion located on the upper end side of the light case. A liquid crystal display device according to claim Rukoto.
According to a second aspect of the present invention , in the first aspect, the liquid crystal display element is disposed on the front side of the frame-shaped holder via a diffusion plate that scatters the irradiation light of the irradiation light source. It is a liquid crystal display device.
According to a third aspect of the present invention, in the liquid crystal display device according to the first aspect of the present invention, the liquid crystal display element is disposed on the front side of the frame-shaped holder via a color filter .
According to a fourth aspect of the present invention, in the liquid crystal display device according to the first aspect of the present invention, the liquid crystal display element is disposed on the front side of the frame-shaped holder via a diffusion plate and a color filter .
Further, in claim 5, in any one of claims 1 to 4 , the light case is formed with an arc-shaped reflecting surface that reflects and guides the light emitted from the illumination light source toward the liquid crystal display element. This is a liquid crystal display device.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
In the first aspect of the present invention, the light case for guiding the irradiation light of the illumination light source to the liquid crystal display element is provided integrally with the holder made of an insulating material made of synthetic resin, and the holder is located behind the liquid crystal display element. A ventilation portion communicating with the outside is provided at a boundary portion between the mounting surface portion of the light source and the peripheral wall portion positioned on the upper end side of the light case, and the ventilation portion is provided on the side peripheral wall positioned on the peripheral wall portion of the holder and the upper end side of the light case. By connecting the inner side and the outer side of the light case through a labyrinth-shaped air passage formed by the parts, heat generated from the light source for illumination is placed on the back side of the liquid crystal display element and the light case. The heat can be dissipated from the upper side of the light case, which is dissipated from the ventilation part provided in communication with the outside at the boundary part, and heat is easily trapped, and the temperature rise in the case can be suppressed This makes it possible to stabilize the operation of the liquid crystal display element and to enable good display, and to form the ventilation portion in a labyrinth shape by the peripheral wall portion of the holder and the side peripheral wall portion located on the upper end side of the light case. By connecting the inner side and the outer side of the light case by a road, the temperature rise in the case can be suppressed, and at the same time, the irradiation light from the illumination light source can be transmitted from the inner side to the outer side of the light case. The light leaking into the liquid crystal can be suppressed, and the illumination effect on the liquid crystal display element can be kept good.
According to a second aspect of the present invention, in the liquid crystal display according to the first aspect of the present invention, the liquid crystal display element is disposed uniformly on the front side of the frame-shaped holder through a diffusion plate that scatters the irradiation light of the irradiation light source. The element can be transmitted and illuminated.
According to a third aspect of the present invention, in the first aspect, the liquid crystal display element is disposed on the front side of the frame-shaped holder via a color filter, whereby the background display color of the liquid crystal display element is changed to the color filter shade. Therefore, it is possible to provide an easy-to-see liquid crystal display device.
According to a fourth aspect of the present invention, in the first aspect, the liquid crystal display element is disposed on the front side of the frame-shaped holder via a diffusion plate and a color filter, so that the background display color of the liquid crystal display element is colored. In addition to being able to display according to the color of the filter, the liquid crystal display element can be uniformly transmitted and illuminated by the diffusion plate.
Further, in claim 5, in any one of claims 1 to 4 , the light case is formed with an arc-shaped reflecting surface that reflects and guides the light emitted from the illumination light source toward the liquid crystal display element. Thus, the irradiation light from the illumination light source is reflected and guided toward the liquid crystal display element by the reflecting surface, and the entire liquid crystal display element can be illuminated uniformly.
[0013]
【Example】
Embodiments of the present invention will be described below with reference to the accompanying drawings. FIGS. 1 to 4 show a first embodiment of the present invention, in which liquid crystal is sealed between two electrode substrates made of a light-transmitting insulating substrate such as a glass substrate having a transparent electrode provided on the opposite inner surface. In this embodiment, a lead pin 2 provided with a clip-shaped electrode holding portion is connected and fixed to a plurality of terminal portions that are connected to the transparent electrode of the liquid crystal display device 1 and exposed to the outside. Has been.
[0014]
In this embodiment, a desired light-transmitting color portion is formed behind the liquid crystal display element 1 in accordance with each display portion (not shown) of the liquid crystal display element 1 and a color filter 3 is disposed. Behind the color filter 3 is disposed a superposed diffusion plate 4 made of synthetic resin such as white polycarbonate or white paper for diffusing light rays from an illumination light source, which will be described later, over a wide area on the back surface of the liquid crystal display element 1. ing.
[0015]
The liquid crystal display element 1, the color filter 3, and the diffusion plate 4 that are arranged in an overlapping manner are supported on a frame-shaped holder 5 made of an insulating material, for example, made of synthetic resin. Has a mounting surface 6 on which the liquid crystal display element 1 is placed, and an insertion hole 7 for receiving and guiding the lead pin 2 of the liquid crystal display element 1 is provided at a side edge of the mounting surface 6. A light case 9 having a curved reflection surface 8 provided continuously on the lower surface side is formed continuously with the holder 5 at the rear of the mounting surface 6 places on which the light is placed. An opening 11 for receiving the light source 10 is provided.
[0016]
Further, a ventilation portion 12 that communicates the inside and the outside of the light case 9 between the mounting surface 6 portion of the frame-shaped holder 5 positioned behind the liquid crystal display element 1 and the upper end edge of the light case 9. In this case, a peripheral wall portion 5A facing the inner side of the insertion hole 7 which is a part of the peripheral wall portion of the holder 5 and a light case are provided on the peripheral wall side edge portion of the holder 5 facing one side. A ventilation portion 12 is configured by a ventilation path formed in a labyrinth by notching part of the placement surface 6 of the holder 5 between the side peripheral wall portion 9A located on the upper end side of 9 and At the peripheral wall side edge of the holder 5 facing the other side, a part of the mounting surface 6 of the holder 5 is cut out to form a side located on the peripheral wall 5B of the holder 5 and the upper end side of the light case 9 depending on the ventilation path formed in labyrinth at between the peripheral wall portion 9B places Airflow section 12 is configured.
[0017]
A printed circuit board 13 incorporating a circuit for driving the liquid crystal display element 1 is disposed behind the light case 9, and each lead pin 2 of the liquid crystal display element 1 is soldered to the printed circuit board 13. In addition, the illumination light source 10 is mounted and fixed while being electrically routed.
[0018]
In general, an incandescent lamp (tungsten lamp) with thermal radiation is used as the illumination light source 10 in this embodiment because the cost is generally reduced for the purpose of increasing illumination brightness. The light source 10 may be a light source composed of a light bulb such as a xenon lamp or a halogen lamp.
[0019]
In the first embodiment configured as described above, the illumination of the liquid crystal display device at night or the like is directly directed toward the liquid crystal display element 1 by the irradiation light of the illumination light source 10 composed of an incandescent bulb attached to the printed circuit board 13. Alternatively, the light beam is reflected through the curved reflecting surface 8 of the light case 9 and indirectly guided to the liquid crystal display element 1.
[0020]
At this time, the color filter 3 and the diffusing plate 4 are interposed behind the liquid crystal display element 1, so that the irradiation light from the illumination light source 10 passes to the liquid crystal display element 1 side through the diffusing plate 4 and the color filter 3. Since the liquid crystal display element 1 is transmitted and illuminated, the background display color of the liquid crystal display element 1 can be displayed by the color filter 3 and the liquid crystal display element 1 is uniformly illuminated by the diffusion plate 4. Moreover, since direct illumination is possible without interposing a light guide plate, the illumination brightness is increased.
[0021]
Further, in this embodiment, the temperature rise in the atmosphere partitioned by the holder 5 and the light case 9, that is, the temperature rise due to the heat of the illumination light source 9 itself is passed through the ventilation portion 12 provided in the light case 9. Heat is dissipated to the outside of the light case 9, thereby suppressing the heating of the color filter 3 and the diffusing plate 4 and thereby adversely affecting the optical performance due to thermal deformation, and the liquid crystal of the liquid crystal display element 1 is liquid. It is possible to solve the problem that the desired voltage dependence characteristics cannot be maintained by changing to the state.
[0022]
The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the gist of the present invention. For example, in the above-described embodiments, a frame positioned behind the liquid crystal display element 1. The ventilation portion 12 that connects the inner side and the outer side of the light case 9 is provided between the mounting surface 6 portion of the holder 5 and the upper edge of the light case 9. The width, the shape as a labyrinth, or the positional relationship thereof may be set so as not to cause a heat dissipation effect or light leakage, and the back surface of the holder 5 is connected to the peripheral wall of the holder 5 and two curves are formed on the lower surface side. A light case 9 having a reflective surface 8 is formed, and an opening 11 for receiving two illumination light sources 10 is formed at the bottom of the light case 9 to constitute the entire liquid crystal display device. The size of the liquid crystal display element 1 The shape of the frame-shaped holder 5 and the light case 9 and the shape and size of the curved reflecting surface may be set according to the length, and the arrangement position and number of illumination light sources associated therewith Needless to say, it may be determined arbitrarily.
[0023]
Further, in the above-described embodiments, the color filter and the diffusion plate are individually configured and arranged, but the filter function and the diffusion plate function may be provided together, and the liquid crystal display element and In the embodiment, the electrical connection between the printed circuit board and the printed circuit board is performed by the lead pins. However, the liquid crystal display element and the printed circuit board may be connected by a flat cable or conductive rubber.
[0024]
【The invention's effect】
As described above in detail, in the liquid crystal display device according to the present invention, the liquid crystal display element is disposed on the front side of the frame-shaped holder made of an insulating material made of synthetic resin, and the holder and the liquid crystal display are arranged. a printed board for mounting the element is provided, the illumination light source for transmission illumination of the liquid crystal display device on the printed board from the back side is provided, the light case for guiding the irradiation light of the illumination light source to the liquid crystal display device A ventilation portion that is provided integrally with the holder and communicates with the outside is provided at a boundary portion between a placement surface portion of the holder located on the back side of the liquid crystal display element and a side peripheral wall portion located on the upper end side of the light case. In addition, the inner side and the outer side of the light case communicate with each other by a labyrinth-like air passage formed by the peripheral wall portion of the holder and the side peripheral wall portion located on the upper end side of the light case. By becoming, heat can dissipate heat from the upper side of the basket Mori easy light case, it is possible to suppress the temperature rise within the case, thereby a good display to stabilize the operation of the liquid crystal display device In addition, the ventilation portion is connected to the inner side and the outer side of the light case by a labyrinth-like air passage formed by the peripheral wall portion of the holder and the side peripheral wall portion located on the upper end side of the light case. As a result, the temperature rise inside the case can be suppressed, and at the same time, the light emitted from the illumination light source can be prevented from leaking from the inside to the outside of the light case, and the liquid crystal display The illumination effect on the element can be maintained satisfactorily, and there is an effect that conventional problems can be solved.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a liquid crystal display device according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of the liquid crystal display device of the first embodiment shown in FIG.
FIG. 3 is a cross-sectional view of a conventional liquid crystal display device.
4 is a cross-sectional view of the conventional liquid crystal display device of FIG. 3 as viewed from the side.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Liquid crystal display element 2 Lead pin 3 Color filter 4 Diffusion plate 5 Holder
5A, 5B Peripheral wall part 6 Mounting surface 7 Insertion hole 8 Reflecting surface 9 Light case
9A, 9B Side peripheral wall part 10 Illumination light source 11 Open hole 12 Ventilation part 13 Printed circuit board

Claims (5)

A liquid crystal display element is disposed on the front side of a frame-shaped holder made of an insulating material made of synthetic resin , and a printed circuit board on which the holder and the liquid crystal display element are mounted is provided, and the liquid crystal display element is provided on the printed circuit board. the provided an illumination light source which transmitted illumination from behind the side, provided with a light case for guiding the irradiation light of the illumination light source to the liquid crystal display device integrally with the holder, the located behind the side of the liquid crystal display device A ventilation portion communicating with the outside is provided at a boundary portion between the mounting surface portion of the holder and the side peripheral wall portion located on the upper end side of the light case , and the ventilation portion is provided on the upper end side of the peripheral wall portion of the holder and the light case. A liquid crystal display device comprising: an inner side and an outer side of the light case communicated with each other by a labyrinth-shaped air passage formed by the side peripheral wall portion located on the side . 2. The liquid crystal display device according to claim 1 , wherein the liquid crystal display device is disposed on a front surface side of the frame-shaped holder via a diffusion plate that scatters an irradiation light beam of the irradiation light source . The liquid crystal display device according to claim 1 , wherein the liquid crystal display element is disposed on a front side of the frame-shaped holder via a color filter . The liquid crystal display device according to claim 1 , wherein the liquid crystal display element is disposed on the front side of the frame-shaped holder via a diffusion plate and a color filter . 5. The liquid crystal according to claim 1, wherein the light case is formed with an arc-shaped reflecting surface that reflects and guides the irradiation light of the illumination light source toward the liquid crystal display element. Display device.

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