JP2008026385A - Display device for portable terminal - Google Patents

Abstract

An object of the present invention is to provide a portable terminal having a smaller display module.
In a display device for a portable terminal that displays characters and figures with a combination of dots of light emitting elements, a first display module having a light transmitting portion and a light emitting element for transmitting light, and the first display module And a second display module in which a light-emitting element is mounted at a position corresponding to the light transmission portion of the first display module, and the light emission of the first display module and the light emission of the second display module. And a display panel that transmits the display pattern.
[Selection] Figure 2

Description

  The present invention relates to a structure of a display device of a mobile terminal.

  In an ordinary foldable mobile phone, the external display screen when it is folded is arranged in a large area. FIG. 9 shows an external view of a conventional folding cellular phone. The foldable mobile phone 101 includes a front display panel 111, a display substrate 112 on which a display element for displaying characters and the like is mounted on the display panel 111, a liquid crystal panel side housing in which a liquid crystal panel and a speaker are arranged. 113 and an operation key side housing 114 in which operation keys and a microphone are arranged are coupled by a hinge 115.

  In recent years, mobile phones have been reduced in size and thickness, and the display panel 111 and display substrate 112 used in the device are also required to be downsized.

For this reason, for example, a display unit has been proposed to be miniaturized by mounting light emitting elements on both sides of the display substrate (Patent Document 1).
JP-A-9-270531 (paragraph 0034 on page 5, FIG. 1)

  By mounting the light emitting elements on both sides of the substrate, the display unit can be downsized.

  However, in order to mount a plurality of light emitting elements on a substrate, there is a limit to making a display device small due to restrictions on the distance between the light emitting elements due to manufacturing conditions and restrictions on the size of the light emitting elements themselves. there were.

  An object of this invention is to provide the display apparatus of the portable terminal which made the display apparatus smaller.

  A display device for a portable terminal according to the present invention is a display device for a portable terminal that displays characters and figures with a combination of dots of light emitting elements, and includes a first display module having a light transmitting portion that transmits light and a light emitting element; A second display module which is arranged to overlap with the first display module and mounts a light emitting element at a position corresponding to the light transmission portion of the first display module; and the light emission and second display module of the first display module And a display panel that transmits a display pattern formed by the light emission.

  By forming the light transmissive portion in the display module, the distance between the light emitting elements can be reduced, so that the display device can be made small.

  In addition, the display device of the portable terminal according to the present invention has a configuration in which a plurality of first display modules having different configurations of a light transmitting portion and a light emitting element that allow light to pass through are arranged in an overlapping manner.

  By stacking a plurality of first display modules having different configurations and the number of light transmitting portions and light emitting elements, the distance between the light emitting elements can be further reduced, so that the display device can be further reduced.

  Moreover, the display device of the portable terminal of the present invention has a configuration in which a spacer for fixing each display module is provided between the display modules, and the spacer is a light shielding material.

  By using a light shielding material as the spacer, light interference between the light emitting elements is prevented.

  Moreover, the display device of the portable terminal according to the present invention has a configuration in which the luminance of the light emitting element of the display module is changed in accordance with the distance from the display panel.

  With this configuration, the luminance of light of each light emitting element at the position of the display panel can be made the same.

  The display device of the portable terminal of the present invention has a sheet-like base material having a connection portion for connecting a plurality of display modules, and the display modules are arranged in an overlapping manner by folding the connection portion. In this structure, light emitting elements of other display modules are arranged at positions corresponding to the light transmission portions of the modules.

  With this structure, since a flexible sheet substrate is used, manufacturing is facilitated.

  According to the present invention, since the distance of the display module can be set to be smaller, it is possible to perform light emission display even at a place where display has been impossible until now.

(Example 1)
FIG. 1 shows an external view of a cellular phone in a folded state.

  The foldable mobile phone 1 includes a front display panel 11 constituting the display unit 2, a display module 12 on which a light emitting element for displaying characters and the like is mounted on the display panel 11, a liquid crystal panel, and a speaker. The display unit side housing 13, the operation key side housing 14 in which operation keys and a microphone are arranged, and a hinge 15 that couples both housings.

  FIG. 2 shows the structure of the display module.

  The display unit 2 includes a display panel 11 and a display module 12.

  The display panel 11 is a panel having a plurality of light transmission holes through which light from the light emitting element passes.

  As shown in FIG. 2B, for example, a panel in which a plurality of seven segments having seven light transmission holes are gathered. In the case of this example, numerical display such as time display is possible.

  The display module 12 includes a first module 21 and a second module 22.

  As shown in FIG. 2A, the light emitted from the first module 21 and the light transmitted through the first module 21 pass through the light transmission hole of the display panel 11 and are, for example, numerical figures. 3 is displayed.

  FIG. 3 is an explanatory diagram of the first module and the second module.

  The first module 21 includes light emitting elements 31 to 34 mounted on a display substrate and light transmission holes 41 to 43 through which light is transmitted. The light transmission holes 41 to 43 are slits for transmitting light from the light emitting elements 35 to 37 of the second module. The light emitting element is, for example, a light emitting diode.

  The second module 22 is obtained by mounting light emitting elements 35 to 37 on a display substrate. There is no light transmission hole for transmitting light.

  Further, the light emitting elements 35 to 37 are mounted at positions corresponding to the mounting positions of the light transmission holes 41 to 43 of the first module 21 so as to overlap with the first module 21.

  That is, the light of the light emitting element 35 is transmitted through the light transmitting hole 41, the light of the light emitting element 36 is transmitted through the light transmitting hole 42, and the light of the light emitting element 37 is transmitted through the light transmitting hole 43. It is done. As a result, the light of the light emitting element of the second module 22 is transmitted through the light transmission hole of the first module 21 and directed toward the display panel 11 along with the light of the light emitting element of the first module 21 in the direction of the arrow. Is emitted.

  FIG. 4 is an explanatory diagram for reducing the size of the display panel.

  This will be described with reference to the configuration example of FIG.

  Since the area occupied by the light emitting elements 31 to 34 and the light transmission holes 41 to 43 on the substrate of the first module 21 is reduced in the entire substrate, the display panel 11 corresponding to them can be reduced. .

  The arrangement of the conventional first module 21 on the substrate is shown in FIG. Between the light emitting elements 31 to 37, a predetermined interval L or more is required depending on the size of the light emitting elements, the pitch between elements, and the like. Accordingly, since the distances X, Y, and Z between the light emitting elements 31 to 37 are required to be distances greater than or equal to the distance L, the display panel 11 corresponding to the distances or less cannot be designed.

  Therefore, in the embodiment shown in FIG. 4B, the light transmission holes 41 to 43 are provided. As a result, the distance A between the light transmission holes 41 to 43 of the first module 21 and the light emitting elements 31 to 34 is not affected by the manufacturing conditions between the light emitting elements 31 to 34, and can be designed to be a distance L or less. As a result, the dimension in the lateral direction W shown in FIG. Further, since the size of the light transmission holes 41 to 43 can be made smaller than the size of the components of the light emitting element within the range that the light emitting element can transmit, the vertical length of the display panel 11 shown in FIG. The direction H can also be reduced. However, the distance B between the light emitting elements 31 and 32, the light emitting elements 33 and 34, the light transmission holes 41 and 42, and the distance C between the light transmission holes 42 and 43 can be reduced only to the distance L as in the conventional case.

  As a result, the entire display panel 11 can be reduced.

  In FIG. 4B, the arrangement of the light emitting elements in the vertical direction is changed to the light transmitting holes. However, the vertical dimension of the display panel 11 is reduced by using the light emitting elements in the horizontal direction as the light transmitting holes. Since they are effective, the entire display panel can be further reduced by combining them.

  FIG. 5 is an explanatory diagram of the spacer.

  In the overlapping of the first module 21 and the second module 22, a spacer 61 is inserted and fixed in the gap between the first module 21 and the second module 22.

  As the spacer 61, an elastic rubber material having a light shielding function is used. As a result, the spacer 61 has a role as an elastic spacer of the first module 21 and the second module 22, thereby facilitating fixing and causing radiation of the light emitting elements 35 to 37 to interfere with each other. Is preventing.

  The same spacer 61 is used for the display panel 11 and the first module 21. The light from the light emitting elements 31 to 34 of the first module 21 and the light emitting elements 35 to 37 of the second module 22 that are transmitted through the light transmitting holes 41 to 43 are not caused to interfere with each other by the spacer 61. The light is incident on the display panel 11.

  Although not shown, the light emitting elements 31 to 37 can be made to enter the display panel 11 using a light guide plate.

  FIG. 6 is an explanatory diagram of another embodiment of the first module and the second module.

  The first module 21 includes a module 211 and a module 212.

  The module 211 includes light emitting elements 31 to 32 and light transmission holes 41 to 45 through which light is transmitted.

  The module 212 has light emitting elements 35 to 37 and light transmission holes 46 to 47 formed therein.

  The second module 22 has light emitting elements 33 to 34 mounted thereon.

  Then, the light emitting element mounting surface of the module 212 is superimposed on the side opposite to the light emitting element mounting surface of the module 211, and the light emitting element mounting surface of the second module 22 is superimposed on the side opposite to the light emitting element mounting surface of the module 212. .

  As a result, the light from the light emitting elements 33 to 34 of the second module passes through the light transmission holes 46 and 47 of the module 212 and the light transmission holes 44 and 45 of the module 211 and enters the display panel 11. Light from the light emitting elements 35 to 37 of the module 212 passes through the light transmission holes 41 to 43 of the module 211 and enters the display panel 11. The light from the light emitting elements 31 to 32 of the module 211 is input to the display panel 11. Although not shown, the spacer 61 between the modules is mounted in the same manner as in the module configuration shown in FIG.

  FIG. 7 is an explanatory diagram of the control of the light emitting element.

  The light emitting elements 31 to 33 of the first module 21 are added with 3.3V via a resistor. Then, blinking is individually controlled by a switch. The brightness is controlled by changing the resistance.

  The light emitting elements 34 to 35 of the second module 22 are added with 3.3V via a resistor. Then, the blinking is individually controlled by the switch 42. The brightness is controlled by changing the resistance.

  As a result, the luminance of the first module 21 is darker than the luminance of the second module 22 of the first module 21 by changing the resistance to be smaller than the current flowing through the light emitting element of the second module 22. can do.

  As a result, when the user visually recognizes the display panel 11, the brightness of the light emitting elements 31 to 34 of the first module 21 and the light emitting elements 35 to 37 of the second module 22 are the same at the position of the display panel 11. The adjustment can be performed in advance. This is because the brightness is inversely proportional to the square of the distance, and thus the brightness of light from the first module 21 and the second module 22 differs when reaching the display panel 11.

  In addition, lighting and extinguishing of the light emitting elements are controlled by a control unit of a mobile phone (not shown).

  FIG. 8 is an explanatory diagram of the flexible printed circuit board.

  An example in which a flexible printed circuit board is used as the substrate of the display module 12 will be described.

  Fig.8 (a) shows the state of the flexible printed circuit board before folding. The flexible printed circuit board of the display module 12 is divided into two islands A and B, and a connection portion 62 is formed between them.

  The configuration is similar to the example shown in FIG. That is, the island A corresponds to the first module 21. The island B corresponds to the second module 22. On the island A, light emitting elements 31 to 34 are mounted and there are light transmission holes 41 to 43. In addition, light emitting elements 35 to 37 are mounted on the island B.

  Then, the light emitting elements 35 to 37 of the second module 22 are bent and fixed so as to overlap the light transmission holes 41 to 43 of the first module 21.

  FIG. 8B shows the result of folding. With such a configuration, a connector such as a power supply wiring to each substrate becomes a single wiring, and there is an advantage that manufacturing is simple because only one substrate is required instead of two substrates.

Regarding the above embodiment, the following additional notes are disclosed.
(Additional remark 1) In the display device of the portable terminal which displays a character and a figure with the dot combination of a light emitting element, the 1st display module which has the light transmissive part and light emitting element which allow light to pass through, and a 1st display module A second display module that is arranged in an overlapping manner and has a light emitting element mounted at a position corresponding to the light transmission portion of the first display module, and is formed by light emission of the first display module and light emission of the second display module. A display device for a portable terminal, comprising: a display panel that transmits a display pattern.
(Additional remark 2) The display apparatus of the portable terminal of Additional remark 1 characterized by arrange | positioning the several 1st display module from which the structure of the light transmissive part and light emitting element which permeate | transmit light differs.
(Additional remark 3) The display apparatus of the portable terminal of Additional remark 1 or Additional remark 2 characterized by providing the spacer for fixing each display module between display modules, and a spacer being a light shielding material.
(Additional remark 4) The display device of the portable terminal of additional remark 1 thru | or additional 3 which changes the brightness | luminance of the light emitting element of a display module according to the distance from a display panel.
(Additional remark 5) It has a sheet-like base material which has the connection part which connects between several display modules, each display module is piled up by folding a connection part, and it respond | corresponds to the light transmissive part of each display module The display device of the mobile terminal according to appendix 1 or appendix 2, wherein the light emitting element of another display module is arranged at a position.
(Appendix 6)
The display device for a portable terminal according to supplementary note 3, wherein a member for fixing between the display modules is provided between the display modules, and the member is a member having elasticity.
(Appendix 7)
The display device of the mobile terminal according to appendix 4, wherein the luminance of the light emitting element of the display module increases as the distance from the display panel increases.

External view of a folded mobile phone Display module structure Explanatory drawing of the 1st module and the 2nd module Illustration of reducing the size of the display panel Illustration of spacer Explanatory drawing of another embodiment of a 1st module and a 2nd module Explanatory drawing of control of light emitting element Illustration of flexible printed circuit board External view of a conventional folding mobile phone

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Folding type mobile phone 2 Display unit 11 Display panel 12 Display module 13 Display unit side case 14 Operation key side case 15 Hinge 21, 211, 212 First module
22 2nd module 23 3rd module 31-37 Light emitting element 41-47 Light transmission hole 51-52 Switch 61 Spacer 62 Connection part

Claims (5)

In a display device of a portable terminal that displays characters and figures with a dot combination of light emitting elements,
A first display module having a light transmissive portion that transmits light and a light emitting element;
A second display module which is arranged to overlap with the first display module and mounts a light emitting element at a position corresponding to the light transmission portion of the first display module;
A display device for a portable terminal, comprising: a display panel that transmits a display pattern formed by light emission of the first display module and light emission of the second display module.   A display device for a portable terminal, wherein a plurality of first display modules having different configurations of a light transmitting portion that transmits light and a light emitting element are arranged to overlap each other.   3. A display device for a portable terminal according to claim 1, wherein a spacer for fixing each display module is provided between the display modules, and the spacer is a light shielding material.   4. The display device for a portable terminal according to claim 1, wherein the luminance of the light emitting element of the display module is changed in accordance with the distance from the display panel.   It has a sheet-like base material having a connection part for connecting a plurality of display modules, and each display module is arranged in an overlapping manner by folding the connection part, and another display module is placed at a position corresponding to the light transmission part of each display module. 3. The display device for a portable terminal according to claim 1, wherein the light emitting element of the display module is arranged.

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