JPH0579536U - Liquid crystal display - Google Patents

Abstract

(57) [Abstract] [Purpose] This invention is a portable light source that can be replaced by itself when the life of the light source as a backlight reaches its end, and when the light source is unnecessary. It is an object of the present invention to provide a liquid crystal display device capable of increasing the display color and changing the background color of the display screen arbitrarily. [Structure] A liquid crystal display panel 11 having a display screen 13,
A light guide plate 20 arranged on the side opposite to the display screen of the liquid crystal display panel, a housing 10 for accommodating the light guide plate and the liquid crystal display panel, and arranged on an edge portion of the light guide plate,
A light source 22 is provided for illuminating light from the edge of the light guide plate so that the front surface of the light guide plate, which faces the liquid crystal display panel, emits surface light. The light source is detachable from the housing. It is characterized by being provided.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a flat panel type liquid crystal display device having a backlight.

[0002]

[Prior Art]

 Flat panel liquid crystal displays (LCDs) are widely used in portable electronic devices such as laptop word processors and personal computers. Most of the recent liquid crystal displays are backlit, which can provide a clear screen regardless of the brightness of the room.

As a backlight of this type, a cold cathode fluorescent lamp and an electroluminescence (EL) are known, and conventionally, this backlight has been arranged on the back surface side of a liquid crystal display.

However, when a tubular backlight such as a fluorescent lamp is arranged on the back surface of the liquid crystal display, the backlight is housed in the housing together with the liquid crystal display. Therefore, the housing is thicker by the backlight. This hinders the downsizing of the entire device.

For this reason, in recent electronic devices that are required to be thin, a light guide plate is placed on the back surface of the liquid crystal display, and the light guide plate is arranged along one edge of the light guide plate. A so-called side-edge type backlight system with a light lamp is used. In this system, the light of a fluorescent lamp is made incident from one side edge of the light guide plate, and this incident light is emitted from the front face of the light guide plate facing the liquid crystal display. The front surface of the light plate emits surface light.

Therefore, in this backlight system, since the tubular light source such as a fluorescent lamp is arranged around the liquid crystal display, there is an advantage that the liquid crystal display including the backlight can be thinned. ..

[0007]

[Problems to be solved by the device]

 However, the light source used in the conventional backlight system is unitized as a module together with the light guide plate and the liquid crystal display, and each unit is built into the housing, so it is easy to use this light guide plate or liquid crystal display. I couldn't remove it.

Then, since the life of the fluorescent lamp is generally much shorter than the life of the liquid crystal display, it was necessary to request a repair from a specialist when the fluorescent lamp was burnt out. Even when a repair is requested, the liquid crystal display and the fluorescent lamp are assembled as one module, so even though the liquid crystal display has not reached the end of its life, a liquid crystal display with a new fluorescent lamp is provided. However, there is a problem that it takes a lot of time and money to repair the backlight.

The present invention has been made under such circumstances, and when the light source as a backlight reaches the end of its life, this light source alone can be replaced, and when the light source is not needed, An object of the present invention is to provide a liquid crystal display device in which the light source can be removed to enhance portability and the background color of the display screen can be arbitrarily changed.

Another object of the present invention is to increase the size of the display screen without changing the size of the housing and to eliminate the need to share the power source for driving the liquid crystal as the light source. There are times when a liquid crystal display device that can prolong the driving time of the liquid crystal display device is obtained.

[0011]

[Means for Solving the Problems]

 Therefore, a liquid crystal display device according to claim 1 includes a liquid crystal display panel having a display screen, a light guide plate disposed on the opposite side of the liquid crystal display panel from the display screen, and the light guide plate and the liquid crystal display panel. A housing for accommodating and a light source that is arranged at the edge of the light guide plate and emits light from the edge of the light guide plate to emit surface light from the front surface facing the liquid crystal display panel of the light guide plate. This light source is provided so that it can be attached to and detached from the housing.

According to a second aspect of the present invention, the light source integrally has a power source and a circuit section connecting the power source and the light source, and one unit including the light source, the power source and the circuit section is It is characterized in that it is detachably attached to the housing.

[0013]

[Action]

 According to the configuration described in claim 1, the light source can be removed from the housing. Therefore, when the light source reaches the end of its life before the liquid crystal display panel, this light source alone must be replaced. You can Moreover, it is not necessary to disassemble the housing when exchanging the light source, and the light source exchanging operation can be easily performed.

Further, when the light source is not needed, such as when carrying the apparatus, the light source is removed from the housing and the light source is attached to the housing as needed, so that the entire apparatus has a compact shape when carried. It is convenient to carry around and use.

At the same time, if a plurality of light sources of various light colors are prepared, the background color of the display screen can be arbitrarily changed according to the user's preference, the usage environment of the device, etc. The screen is easier to see.

According to the structure described in claim 2, since the light source itself is integrally provided with a dedicated power source and a circuit section, it is not necessary to incorporate a component for lighting the light source into the housing, and thus the housing A large space can be secured inside. Therefore, the liquid crystal display panel can be upsized without changing the size of the housing, and the display screen can be easily viewed accordingly. On the contrary, if the size of the liquid crystal display panel is the same as before, the housing can be downsized, and especially when the light source is removed, the entire device becomes more compact and convenient to carry.

Moreover, since the light source itself has a dedicated power source and a circuit section, it is not necessary to share the power source for driving the liquid crystal display panel, and the consumption of the power source for driving the liquid crystal display panel can be suppressed accordingly. You can

[0018]

【Example】

 A first embodiment of the present invention will be described below with reference to FIGS. 1 to 4 applied to a laptop personal computer.

As shown in FIG. 4, the personal computer 1 includes a housing 2 having a substantially rectangular box shape. A keyboard 3 is arranged on the upper surface of the front half of the housing 2, and a display unit 4 is rotatably attached to the rear half of the housing 2 connected to the keyboard 3. The display unit 4 is provided with legs 5, which are inserted into a recess 6 formed in the rear half of the housing 2 and are rotatably connected via a hinge (not shown).

Therefore, the display unit 4 is rotatably provided between an open position where the keyboard 3 is exposed and a closed position where the keyboard 3 is covered and hidden. A floppy disk drive device 7 is housed inside the housing 2, and an entrance / exit 8 for the floppy disk is opened on the side surface of the housing 2.

The display unit 4 includes a thin rectangular box-shaped housing 10 made of synthetic resin and a flat liquid crystal display panel 11 housed in the housing 10. The liquid crystal display panel 11 has a liquid crystal cell 12 as shown in FIG. The liquid crystal cell 12 has a structure in which a liquid crystal layer is sealed between a pair of glass substrates with transparent electrodes, and these glass substrates are sandwiched by a pair of polarizing plates. Is the display screen 13. The display screen 13 is exposed to the outside through a display window 14 opened on the front surface of the housing 10.

A printed wiring board 15 is arranged on the opposite side of the liquid crystal cell 12 from the display screen 13. A circuit component (not shown) for driving the liquid crystal cell 12 is mounted on the printed wiring board 15. A flexible connector 16 made of conductive rubber is sandwiched between the peripheral edge of the printed wiring board 15 and the peripheral edge of the liquid crystal cell 12, and the connector 16 connects the terminals of the printed wiring board 15 to the terminals. The electrodes of the liquid crystal cell 12 are electrically connected.

The printed wiring board 15 is connected to the control circuit section in the housing 2 via a flexible board (not shown) for interface. The control circuit unit includes a battery 17 that serves as a power source for driving the liquid crystal cell 12, and the battery 17 is detachably attached to the rear portion of the housing 2.

A light guide plate 20 is interposed between the liquid crystal cell 12 and the printed wiring board 15. The light guide plate 20 is made of a translucent material such as acrylic resin. As shown in FIG. 3, the light guide plate 20 is superposed on the back surface of the liquid crystal cell 12 opposite to the display screen 13, and one side portion of the light guide plate 20 projects to the side of the liquid crystal display panel 11. Has been issued. All surfaces of the light guide plate 20 except the front surface 20a facing the liquid crystal cell 12 and the one end surface 20b protruding to one side of the liquid crystal cell 12 are white or mirror-like light reflecting plates 21. Is covered by.

By the way, a cold cathode fluorescent lamp 22 as a light source is arranged on one side of the light guide plate 20. The fluorescent lamp 22 is arranged along one side of the light guide plate 20, and its light emitting tube 22a is closely opposed to the one end surface 20b of the light guide plate 20. The fluorescent lamp 22 is detachably supported on the housing 10 that houses the liquid crystal display panel 11, and can be separated from the liquid crystal display panel 11 and the light guide plate 20.

To further explain this configuration, as shown in FIG. 4, the housing 10 of the display unit 4 includes a first housing portion 10 a for accommodating the liquid crystal display panel 11 and the light guide plate 20, and a fluorescent material. It is divided into a second housing portion 10b for accommodating the lamp 22, and the first housing portion 10a is rotatably supported by the housing 2. The first housing portion 10a and the second housing portion 10b are provided with dividing surfaces 23 and 25 which are butted against each other. A slit-shaped light receiving opening 24 is formed in the dividing surface 23 of the first housing portion 10a, and one end surface 20b of the light guide plate 20 is exposed through the opening 24. The second housing 10b is in the shape of an elongated box, and a slit-shaped projection opening 26 is formed in the dividing surface 25 of the second housing portion 10b. The light projecting opening 26 is aligned with the light receiving opening 24 when the first housing portion 10a and the second housing portion 10b are butted against each other, whereby the fluorescent lamp 22 and the light guide plate 2 are provided. The one end face 20b of 0 is close to each other.

The split surface 25 of the second housing portion 10b is provided with a pair of engaging claws 28a, 28b extending toward the first housing portion 10a. These engaging claws 28a and 28b are juxtaposed on both sides of the opening 26, that is, in the thickness direction of the second housing portion 10b, and are elastically deformed in the thickness direction of the second housing portion 10b. It is possible.

Insertion holes 29a and 29b into which the engaging claws 28a and 28b are inserted are opened in the division surface 23 of the first housing portion 10a. Engagement holes 31 are formed on the front surface and the rear surface of the first housing 10a connected to the dividing surface 23 so that the tip portions 30a and 30b of the engagement claws 28a and 28b can be detachably engaged. Therefore, when the split surface 23 of the first housing portion 10a and the split surface 25 of the second housing portion 10b are butted against each other, the engaging claws 28a and 28b enter the insertion holes 29a and 29b, and the tips thereof are inserted. The portions 30a and 30b are elastically locked to the opening edge of the engaging hole 31. By this locking, the second housing portion 10b is fixed to the first housing portion 10a so as not to come off, and the fluorescent lamp 22 and the one end face 20a of the light guide plate 20 are aligned with each other. ing.

Further, as shown in FIG. 2, cables 33 a and 33 b connected to the electrodes are connected to both ends of the fluorescent lamp 22. First connectors 35a and 35b having pin terminals 34a and 34b are provided at the tips of these cables 33a and 33b. The pin terminals 34a, 34b of the first connectors 35a, 35b project from the dividing surface 25 of the second housing portion 10b, and these pin terminals 34a, 34b are arranged on the dividing surface 25 in the longitudinal direction thereof. It is spaced apart.

A converter circuit 37 for converting the voltage of the battery 17 into a high voltage is housed inside the first housing portion 10a as a circuit portion for lighting the fluorescent lamp 22. The converter circuit 37 is mounted on a printed circuit board 38, and the printed circuit board 38 is disposed inside the first housing portion 10a on the side opposite to the fluorescent lamp 22. A pair of lead wires 39a and 39b are connected to the printed wiring board 38. The lead wires 39a, 39b are guided toward the dividing surface 23 of the first housing portion 10a through both upper and lower sides of the liquid crystal display panel 11, and the terminal insertion holes 40a, 40a, Second connectors 41a, 41b having 40b are provided. The terminal insertion holes 40a, 40b of the second connectors 41a, 41b are exposed on the dividing surface 23 of the first housing 10a, and these terminal insertion holes 40a, 40b are formed on the dividing surface 23. It is spaced apart in the longitudinal direction.

Therefore, in a state where the split surface 23 of the first housing portion 10a and the split surface 25 of the second housing portion 10b are butted against each other and the engaging claws 28a and 28b are locked in the engaging holes 31, The pin terminals 34a, 34b are detachably fitted into the terminal insertion holes 40a, 40b, and the fitting allows the fluorescent lamp 22 to be connected to the battery 17 via the converter circuit 37. There is.

When the fluorescent lamp 22 is turned on, the light from the fluorescent lamp 22 is incident on the one end surface 20 b of the light guide plate 20 through the light projecting opening 26 and the light receiving opening 24. It This incident light is transmitted through the light guide plate 20, and in the course of this transmission, is repeatedly reflected on the light reflection plate 21 and reaches the other side of the light guide plate 20. Then, of the incident light, the light reflected toward the liquid crystal display panel 11 is guided to the front surface 20a of the light guide plate 20 and irradiates the liquid crystal display panel 11 from the back surface side. The light plate 20 functions as a backlight that emits surface light.

As shown in FIG. 3, on the front surface 20 a of the light guide plate 20 facing the liquid crystal display panel 11, a light diffusing layer 42 is printed for uniformizing the brightness distribution on the front surface.

In the personal computer 1 configured as described above, the housing 10 of the display unit 4 houses the first hanging part 10 a that houses the liquid crystal display panel 11 and the light guide plate 20, and the fluorescent lamp 22. Since it is divided into the second housing portion 10b and the second housing portion 10b, the second housing portion 10b is separated from the first housing portion 10a when the fluorescent lamp 22 reaches the end of its life.

Specifically, the tips 30a and 30b of the engaging claws 28a and 28b hooked in the engaging holes 31 of the first housing portion 10a are pushed in the first housing portion 10a. By pressing, the engagement between the tip portions 30a and 30b and the engagement hole 31 is released. When the second housing part 10b is pulled away from the first housing part 10a in this state, the engaging claws 28a, 28b are disengaged from the insertion holes 29a, 29b, and the first housing part 10a and the second housing part 10a. 10b is separated and the pin terminals 34a, 34b connected to the fluorescent lamp 22 are removed from the terminal insertion holes 40a, 40b, and the fluorescent lamp 22 and the battery 17 are electrically disconnected.

As described above, when the fluorescent lamp 22 reaches the end of its life, the second housing portion 10 b accommodating the fluorescent lamp 22 is removed from the first housing portion 10 a integrated with the housing 2. Since they can be separated, the fluorescent lamp 22 can be replaced as a single unit. Therefore, the liquid crystal display panel 11 and the light guide plate 20 can be repeatedly used as they are, which is economical.

Moreover, when exchanging the fluorescent lamp 22, it is only necessary to pull the second housing portion 10b to separate it from the first housing portion 10a, so that it is necessary to disassemble the entire display unit 4. Therefore, this fluorescent lamp 22 can be easily replaced.

Further, when the fluorescent lamp 22 is unnecessary as in the case where the personal computer 1 is carried around, the second housing portion 10b is separated from the first housing portion 10a, and the second housing portion 10a is provided as necessary. By connecting the portion 10b to the first housing portion 10a and using it, the display unit 4 has a light and compact shape when the personal computer 1 is carried around. For this reason, portability is further improved and usability is improved.

At the same time, if a plurality of second housing portions 10b accommodating the fluorescent lamps 22 are prepared and the light colors of the individual fluorescent lamps 22 are made different, the fluorescent lamps 22 are appropriately selected. By doing so, the background color of the display screen 13 can be freely changed according to the preference of the user and the environment in which the personal computer 1 is used, and the visibility of the display screen 13 can be improved. The present invention is not limited to the first embodiment described above, and FIGS. 5 and 6 show a second embodiment of the present invention.

The second embodiment is different from the first embodiment mainly in the configuration of the second housing portion 10 b for housing the fluorescent lamp 22, and in the second embodiment, the first housing is different from the first embodiment. The same components as those in the embodiment are designated by the same reference numerals and the description thereof will be omitted.

As shown in FIG. 6, a printed wiring board 51 is accommodated inside the second housing portion 10b together with the fluorescent lamp 22. On this printed wiring board 51, contact pieces 53a and 53b for connecting in series two dry batteries 52a and 52b, which are the power source of the fluorescent lamp 22, and the voltage of the dry batteries 52a and 52b to high voltage. A converter circuit 54 for converting is provided. The converter circuit 54 is connected to electrodes at both ends of the fluorescent lamp 22 via lead wires 55a and 55b.

Therefore, in the case of the second embodiment, inside the second housing portion 10b, the dry batteries 52a and 52b which are the power source for lighting the fluorescent lamp 22 and the voltages of the dry batteries 52a and 52b are installed. The converter circuit 54 for boosting the voltage to the voltage required to light the light lamp 22 is integrated as one unit, and the second light emitting part 10b alone can light the light lamp 22. ..

The converter circuit 54 is provided with a power switch 55 for lighting the fluorescent lamp 22, and the power switch 55 is exposed on the front surface of the second housing portion 10b.

An opening 56 is provided on the front surface of the second housing portion 10b for inserting and removing the dry batteries 52a and 52b, and the opening 56 is closed by a removable lid 57. ing.

According to the second embodiment having such a configuration, the fluorescent lamp 22 and the dry cells 52a and 52b and the converter circuit 54 necessary for lighting the fluorescent lamp 22 are provided in the second housing portion 10b. Since it is integrated as one unit, it is not necessary to install a dedicated part for lighting the fluorescent lamp 22 inside the first housing portion 10a, and this first housing portion 10a is not necessary. A large space can be secured inside the building. Therefore, the liquid crystal display panel 11 can be increased in size without increasing the size of the first housing portion 10a, and the display screen 13 can be easily viewed.

Further, the inside of the first housing portion 10a is occupied as a space for accommodating the liquid crystal display panel 11. Therefore, if the size of the liquid crystal display panel 11 is the same as the conventional size, the first housing portion 10a is formed. Can be made smaller. For this reason, the display unit 4 as a whole has a more compact shape when the second housing portion 10b is removed, which is convenient for carrying around.

Moreover, since the fluorescent lamp 22 is turned on by the dedicated dry batteries 52a and 52b, the battery 17 incorporated in the housing 2 does not have to be shared as a power source. Therefore, there is an advantage that the consumption of the battery 17 is suppressed to be small and the drivable time of the liquid crystal display panel 11 becomes long.

Although the fluorescent lamp is arranged only on one side of the light guide plate in the above embodiment, the present invention is not limited to this, and the fluorescent lamp may be arranged on the left and right sides of the light guide plate, for example. At the same time, it goes without saying that the light source for making light incident on the light guide plate is not limited to the fluorescent lamp.

Further, the liquid crystal display device according to the present invention is not specified for a display of a personal computer, but can be similarly implemented in a word processor, a liquid crystal television, or the like.

[0050]

[Effect of the device]

 According to the structure described in claim 1, when the light source reaches the end of its life, only this light source can be replaced by itself, so that the liquid crystal display panel and the light guide plate can be repeatedly used as they are, which is economical. .. In addition, it is not necessary to disassemble the entire device when replacing the light source, and this light source replacement operation can be easily performed.

When the light source is not needed, such as when carrying the entire apparatus, the light source can be removed from the housing and the light source can be connected to the housing as needed to use the entire apparatus. The light and compact shape makes it convenient for carrying around.

At the same time, since the light source is separable, if various light colors are prepared as this light source, the color of the background of the screen can be changed by the user's preference or the device by properly selecting this light source. It can be changed freely according to the usage environment, and the visibility of the display screen can be further improved.

According to the configuration described in claim 2, it is not necessary to install a dedicated circuit component for lighting the light source inside the housing, and a large space can be secured inside the housing. The size of the liquid crystal display panel can be increased without doing so, and the display screen can be easily viewed. On the contrary, if the size of the liquid crystal display panel is the same as the conventional one, the housing can be made smaller, so that the entire device will have a more compact shape especially when the light source is removed, which is convenient for carrying around. Becomes

Moreover, since the light source is turned on by a dedicated power source, it is not necessary to share the power source for driving the liquid crystal display panel, and accordingly, the drivable time of the liquid crystal display panel becomes longer. There are advantages.

[Brief description of drawings]

FIG. 1 is a perspective view showing a state in which a second housing part accommodating a light source and a first housing part accommodating a liquid crystal display panel are separated in a display unit according to a first embodiment of the present invention.

FIG. 2 is a perspective view showing a liquid crystal display panel, a light source, and a booster converter circuit.

FIG. 3 is a sectional view showing a positional relationship between a light guide plate and a light source.

FIG. 4 is a perspective view of a personal computer.

FIG. 5 is a perspective view showing a state in which a second housing part accommodating a light source thereof and a first housing part accommodating a liquid crystal display panel are separated in a display unit according to a second embodiment of the present invention.

FIG. 6 is a perspective view showing a state in which a light source, a power supply, and a boost converter circuit are integrated.

[Explanation of symbols]

10 ... Housing, 11 ... Liquid crystal display panel, 13 ... Display screen, 20 ... Light guide plate, 22 ... Light source (fluorescent lamp), 5
2a, 52b ... Power source (dry cell), 54 ... Circuit part (converter circuit).

Claims (2)

[Scope of utility model registration request] 1. A liquid crystal display panel having a display screen, a light guide plate disposed on the opposite side of the liquid crystal display panel from the display screen, a housing for housing the light guide plate and the liquid crystal display panel, and the light guide plate. A light source for illuminating light from the edge of the light guide plate to illuminate the front surface of the light guide plate facing the liquid crystal display panel, and the light source, A liquid crystal display device, which is detachably attached to a housing. 2. The light source according to claim 1, wherein:
A power source and a circuit unit connecting the power source and the light source are integrally provided, and one unit including the light source, the power source and the circuit unit is detachably provided to the housing. Liquid crystal display device.