JP3164279U - Electrophoretic display key structure with switchable display direction - Google Patents

Abstract

An electrophoretic display key structure capable of switching a display direction is provided. The key structure includes a first printed circuit board, an electrophoretic display thin film, a transparent electrode layer, a plurality of key caps, and a control element. The first printed circuit board includes a plurality of electrode blocks corresponding to the respective key regions, and each electrode block includes a plurality of electrodes. Among them, electrodes in the same electrode block constitute at least two patterns, and these patterns share some electrodes. The electrophoretic display thin film is provided on the first printed circuit board. The transparent electrode layer is provided on the electrophoretic display thin film. The control element is provided in the key area and generates an input signal. [Selection] Figure 6

Description

  The present invention relates to an electrophoretic display (EPD) key structure whose display direction can be switched, and more particularly, to an electrophoretic display key structure in which an electrophoretic display thin film and a control element are combined.

  As technology advances and develops, various electronic devices, especially mobile phones and personal computers, are used to facilitate the input of various data such as short messages and commands by users, or to perform various functions such as cursor movement. Input devices are required for mobile electronic products such as digital assistants (PDAs). A keypad is an input device often found in mobile electronic products, and is composed of a plurality of key structures. In order to facilitate selection and input by the user, the key structure represents predetermined messages such as different characters and symbols.

  Character symbols and numeric symbols represented by a conventional key structure are directly marked on a key cap of the key structure by printing or flat pasting. To prevent the letters and numbers from being indistinguishable due to wear, make the key cap of the key structure transparent and form the number, letters, or symbols to be marked on the key cap of the key structure in the laser engraving process Prior art has been developed to prevent wear of numbers, letters or symbols. However, in recent years, with the downsizing of mobile electronic products, the key structure for input has become smaller and the displayed character symbols and numeric symbols are too small to be identified, or the key structure has a small area and the required character symbols And the problem of not being able to accommodate numeric symbols. In addition, with the advancement of technology, the functions of mobile electronic products have been renovated, and the key structure used as an input device has to represent various messages corresponding to various functions. Thus, each key structure must display a plurality of symbols in order to allow messages corresponding to the various functions represented by each key structure to be identified by the user.

  Japanese Patent Application Laid-Open No. 2009-200366 discloses a mobile phone device capable of switching the symbol display direction so that a user can operate the mobile phone device in various ways and display symbols of a key structure in different directions. ing. Please refer to FIG. 1 and FIG. FIG. 1 and FIG. 2 are explanatory diagrams showing the operation method of the conventional mobile phone device and the display direction of the corresponding symbols. As shown in FIG. 1, the conventional mobile phone device 10 includes an upper housing 12, a lower housing 14, a key structure 16, and two rotating shaft structures 18 and 20, and the key structure 16 is a lower housing. It is provided in the body 14. When the upper housing 12 is opened in the first direction 22, the rotation shaft structure 18 rotates correspondingly, and the key structure 16 displays a plurality of first symbols 24. The first symbol 24 is displayed in the direction opposite to the first direction 22. As shown in FIG. 2, when the upper housing 12 is opened in the second direction 26, the other rotating shaft structure 20 rotates correspondingly, and the key structure 16 displays a plurality of second symbols 28. The second symbol 28 is displayed in a direction opposite to the second direction 26.

  However, since the number of rotating shaft structures of conventional mobile phone devices matches the number of symbol display directions and the types of symbols of the key structure, the symbol type of the key structure is limited by the number of rotating shaft structures. There is a problem that. Therefore, in order to enable the key structure to display various symbol types and display directions depending on the mode, and to increase the types of messages that can be displayed with the key structure, the number of rotating shafts must be increased, Production cost increases. In view of this, in the industry, solving the problem that the types of symbols that can be displayed with the key structure and the display direction are limited, and preventing the problem that the character symbols and numeric symbols to be displayed are too small to be identified. It is a development goal.

  In order to solve the above-described problems, an object of the present invention is to provide an electrophoretic display key structure capable of switching the display direction.

  In the present invention, an electrophoretic display key structure having a plurality of key areas and capable of switching a display direction is disclosed. The key structure includes a first printed circuit board, an electrophoretic display thin film, a transparent electrode layer, a plurality of key caps, and a control element. The first printed circuit board includes a plurality of electrode blocks corresponding to the respective key regions, and each electrode block includes a plurality of electrodes. Among them, electrodes in the same electrode block constitute at least two patterns, and these patterns share some electrodes. The electrophoretic display thin film is provided on the first printed circuit board. The transparent electrode layer is provided on the electrophoretic display thin film. The control element is provided in the key area and generates an input signal.

  In the present invention, a plurality of electrodes are provided in each electrode block, and some electrodes are shared by two or more patterns in each electrode block. Therefore, it is not necessary to reduce the size of the pattern in order to prevent the patterns displayed by the electrophoretic display thin film from overlapping each other.

It is explanatory drawing showing the operation method of the conventional mobile telephone apparatus, and the display direction of a corresponding symbol. It is explanatory drawing showing the operation method of the conventional mobile telephone apparatus, and the display direction of a corresponding symbol. It is a top view of the electrophoresis display key structure which can switch a display direction. 1 is an exploded view of an electrophoretic display key structure according to a first embodiment of the present invention. FIG. 3 is a cross-sectional view of an electrophoretic display key structure in each key area according to the first embodiment of the present invention. 1 is a plan view of a single electrode block according to the present invention. It is explanatory drawing showing other embodiment of the single electrode block by this invention. FIG. 6 is an explanatory view showing a further embodiment of a single electrode block according to the present invention. It is explanatory drawing showing other embodiment of the display direction of the 1st pattern and 2nd pattern by this invention. It is explanatory drawing showing the display of the 1st pattern mode by the electrophoresis display key structure of this invention. It is explanatory drawing showing the display of the 2nd pattern mode by the electrophoresis display key structure of this invention. It is sectional drawing of the electrophoretic display key structure in each key area | region by Example 2 of this invention. It is sectional drawing of the electrophoretic display key structure in each key area | region by Example 3 of this invention.

  Please refer to FIG. FIG. 3 is a plan view of an electrophoretic display key structure capable of switching the display direction according to the present invention. As shown in FIG. 3, the electrophoretic display key structure 100 includes a plurality of key regions 102 each corresponding to a function of an input symbol. For detailed description of the electrophoretic display key structure according to the present invention, please refer to FIG. 4 and FIG. FIG. 4 is an exploded view of the electrophoretic display key structure according to the first embodiment of the present invention, and FIG. 5 is a cross-sectional view of the electrophoretic display key structure in each key region according to the first embodiment of the present invention. 4 and 5, the electrophoretic display key structure 100 according to the present invention includes a control element 104, a first printed circuit board 106, an electrophoretic display thin film 108, a transparent electrode layer 110, and a plurality of key caps. 112. In this embodiment, the control element 104 includes a plurality of metal elastic pieces 114, an elastic piece thin film 116, a plurality of plungers 118, and a second printed circuit board 120. A flexible printed circuit board can be used as the second printed circuit board 120, but the present invention is not limited thereto. Each metal elastic piece 114 is provided on the second printed circuit board 120 in each key area 102. When the metal elastic piece 114 is pressed, it corresponds to the pressed metal elastic piece 114 and the second printed circuit board 120 therebelow. The printed circuit is electrically conductive and generates a pressing signal. The elastic piece thin film 116 is provided on the metal elastic piece 114. The elastic piece thin film 116 has an adhesion function, and is used to cover the metal elastic piece 114 and adhere to the second printed circuit board 120. Each plunger 118 corresponds to the metal elastic piece 114, and is provided between the first printed circuit board 106 and the elastic piece thin film 116. Since the elastic piece thin film 116 is used, the plunger 118 can be fixed to the elastic piece thin film 116. However, the present invention is not limited thereto, and the plunger 118 may be provided between the metal elastic piece 114 and the elastic piece thin film 116. The plunger 118 according to the present embodiment is made of silicone or rubber.

  The first printed circuit board 106 is provided on the control element 104. The electrophoretic display key structure further includes an adhesive tape 122 for bonding the first printed circuit board 106 and the elastic strip thin film 116 thereunder. The electrophoretic display thin film 108 is provided on the first printed circuit board 106, and the transparent electrode layer 110 is provided on the electrophoretic display thin film 108. Accordingly, the first printed circuit board 106, the electrophoretic display thin film 108, and the transparent electrode layer 110 constitute a module that performs a display function. The first printed circuit board 106 is, for example, a flexible printed circuit board that is electrically connected to a signal controller, whereby a voltage signal is supplied to the first printed circuit board 106. The transparent electrode layer 110 is electrically connected to a common potential (for example, ground). Therefore, when the signal controller supplies a voltage signal to the first printed circuit board 106, the first printed circuit board 106 and the transparent electrode layer 110 are perpendicular to the electrophoretic display thin film 108, that is, perpendicular to the electrophoretic display key structure 100. Provides a vertical electric field along the direction. Thereby, the electrophoretic display thin film 108 displays a pattern. Each keycap 112 corresponds to the plunger 118 and is provided on the transparent electrode layer 110. The key cap 112 is made of, for example, an ultraviolet curable resin, but the present invention is not limited thereto. Each key cap has a key outer shape that is easy to be pressed by the user and to identify the plurality of key areas 102 during use. Further, the electrophoretic display thin film 108 may have any type of electrophoretic display structure. For example, the electrophoretic display thin film 108 includes a plurality of microcapsules and a plurality of liquid layers provided in each microcapsule, or includes a plurality of microcup structures, a plurality of liquid layers, and each liquid layer. And a sealing layer for sealing in the cup structure. However, the electrophoretic display thin film according to the present invention is not limited thereto.

  It should be noted that the first printed circuit board 106 according to the present invention includes a plurality of electrode blocks 124 respectively provided in each key area 102. Each electrode block 124 includes a plurality of electrodes located therein. The plurality of electrodes constitute at least two patterns, and these patterns share some electrodes. In order to describe each electrode block of the first printed circuit board according to the present invention in detail, a single electrode block will be described below in detail as an example. Please refer to FIG. FIG. 6 is a plan view of a single electrode block according to the present invention. As shown in FIG. 6, each electrode block 124 of this embodiment includes a plurality of first electrodes 126, a plurality of second electrodes 128, and a plurality of common electrodes 130. Each first electrode 126, each second electrode 128, and each common electrode 130 are not in contact with each other. In the single electrode block 124, the first electrode 126 and the common electrode 130 constitute a first pattern 132 (for example, numeral 2), and the second electrode 128 and the common electrode 130 are formed in a second pattern 134 (for example, the letter E). ). However, the present invention is not limited thereto, and the first pattern 132 and the second pattern 134 may be letters, numbers, or special symbols, and the pattern to be displayed is determined by the input signal. The display direction of the first pattern 132 and the display direction of the second pattern 134 are parallel to each other.

  As described above, in this embodiment, the electrodes in each electrode block are divided into a plurality of first electrodes, a plurality of second electrodes, and a plurality of common electrodes, and are divided into a first pattern and a second pattern in each electrode block. Share a common electrode. Therefore, it is not necessary to reduce the size of the pattern in order to prevent the first pattern and the second pattern from overlapping each other, and the pattern may have the same size as the key area. This can solve the problem of the prior art that the pattern cannot be identified due to the reduction of the electrophoretic display key structure. By simply changing the electrode pattern in each electrode block, it is possible to switch between a plurality of symbols without increasing the cost.

  In addition, each electrode block according to the present invention is not limited to including a plurality of first electrodes, a plurality of second electrodes, or a plurality of common electrodes, and the first pattern and the second pattern to be displayed in the electrode block are overlapped. Thus, the number of the first electrode, the second electrode, or the common electrode can be determined. The electrode block according to the present invention includes at least one first electrode, at least one second electrode, and at least one common electrode. Please refer to FIG. FIG. 7 is an explanatory view showing another embodiment of a single electrode block according to the present invention. As shown in FIG. 7, only one common electrode 130 is required. In addition, each electrode block according to the present invention can display at least two patterns instead of displaying only two patterns. Please refer to FIG. FIG. 8 is an explanatory view showing a further embodiment of a single electrode block according to the present invention. As shown in FIG. 8, compared to the electrode block shown in FIG. 7, the electrode block 124 according to the present embodiment further includes a plurality of third electrodes 136, and a third pattern 138 is added thereto. Therefore, the number and shape of the first electrode 126, the second electrode 128, and the common electrode 130 are different from the above-described embodiment, and the portion where the first pattern 132 and the second pattern 134 overlap is the common electrode 130a. The portion where one pattern 132 and the third pattern 138 overlap is the common electrode 130b, and the portion where the second pattern 134 and the third pattern 138 overlap is the common electrode 130c, and the first pattern, the second pattern, and The portion where the third pattern overlaps is the common electrode 130d. The first electrode 126 and some common electrodes 130a, 130b, 130d constitute a first pattern 132, the second electrode 128 and some common electrodes 130a, 130c, 130d constitute a second pattern 134, and the third The electrode 136 and some of the common electrodes 130b, 130c, and 130d constitute a third pattern 138.

  The first display direction of the first pattern and the second display direction of the second pattern according to the present invention are not necessarily parallel to each other. Please refer to FIG. FIG. 9 is an explanatory view showing another embodiment of the display direction of the first pattern and the second pattern according to the present invention. As shown in FIG. 9, the display direction of the first pattern 132 and the display direction of the second pattern 134 are perpendicular to each other.

  Each electrode block according to the present invention includes a plurality of patterns representing various predetermined messages. In order to explain the mode conversion of the electrophoretic display key structure according to the present invention, refer to FIGS. 10, 11 and 6. FIG. FIG. 10 is an explanatory diagram showing the display of the first pattern mode by the electrophoretic display key structure of the present invention, and FIG. 11 is an explanatory diagram showing the display of the second pattern mode by the electrophoretic display key structure of the present invention. As shown in FIGS. 6, 10, and 11, the first pattern mode refers to the combination of the first patterns 132 of each electrode block 124, and the second pattern mode refers to the second pattern 134 of each electrode block 124. A combination. When the electrophoretic display key structure 100 displays the first pattern mode, a voltage signal is supplied to the first electrode 126 and the common electrode 130, and a vertical electric field is applied to the electrophoretic display thin film corresponding to the first electrode 126 and the common electrode 130. The first pattern 132 is displayed. If the electrophoretic display key structure 100 converts to the second pattern mode, the first pattern mode displayed by the electrophoretic display thin film is erased, and then the voltage signal is supplied to the second electrode 128 and the common electrode 130, The electrophoretic display thin film corresponding to the two electrodes 128 and the common electrode 130 has a vertical electric field to display the second pattern 134. Accordingly, the electrophoretic display key structure 100 according to the present invention uses the common electrode 130 to display the first pattern 132 and the second pattern 134 that overlap each other at different times.

  It should be noted that the electrophoretic display thin film can display the first pattern or the second pattern even when the voltage signal is not continuously supplied to the first electrode and the common electrode or the second electrode and the common electrode. This saves power for voltage signal supply and solves the prior art problem of power consumption due to continuous lighting of LEDs. In addition, since the present invention can display different patterns in the same key area only by using a single-layer electrophoretic display thin film, it requires a multilayered light guide plate to display different patterns in the same key area. The problem can be solved.

  Please refer to FIG. 4 and FIG. 5 again. The electrophoretic display key structure 100 according to the present invention further includes a light guide plate 140, an adhesive layer 142, and a light source 144. The light guide plate 140 is, for example, a silicone film, a polycarbonate (PC) film, a thermoplastic polyurethane elastomer (TPU) film, or a polyethylene terephthalate (PET) film provided on the transparent electrode layer 110, and includes a plurality of nanoscale optical dots ( For example, an optical microstructure of 5 to 10 μm). The adhesive layer 142 is provided between the light guide plate 140 and the transparent electrode layer 110 and is used to join the light guide plate 140 and the transparent electrode layer 110. The adhesive layer 142 is, for example, an optical adhesive or an adhesive tape, but the present invention is not limited thereto. The light source 144 is a light emitting device such as a light emitting diode (LED) provided on one side of the light guide plate 140.

  The control element of the electrophoretic display key structure according to the present invention is not limited to the above embodiment. Please refer to FIG. FIG. 12 is a cross-sectional view of an electrophoretic display key structure in each key area according to the second embodiment of the present invention. As shown in FIG. 12, unlike the first embodiment, the control element of the electrophoretic display key structure 200 according to the present embodiment does not include structures such as a metal elastic piece, an elastic piece thin film, a plunger, and a key cap. The control element is a capacitive touch panel 202 provided on the transparent electrode layer 110 and electrically insulated from the transparent electrode layer 110. The capacitive touch panel 202 according to the present embodiment is provided between the transparent electrode 110 and the light guide plate 140. However, the present invention is not limited to this, and the capacitive touch panel 202 may be provided on the light guide plate 140. The second printed circuit board 204 is provided in the capacitive touch panel 202 and transmits a touch signal.

  Please refer to FIG. FIG. 13 is a cross-sectional view of an electrophoretic display key structure in each key area according to the third embodiment of the present invention. As shown in FIG. 13, unlike the second embodiment, the electrophoretic display key structure 250 according to the present embodiment further includes a plurality of metal elastic pieces 114, an elastic piece thin film 116, and a plurality of plungers. The elastic piece thin film 116 is provided below the first printed circuit board 106, and each metal elastic piece is provided below the elastic piece thin film 116 in each key region 102. Each plunger 118 is provided between the first printed circuit board 106 corresponding to each metal elastic piece 114 and each metal elastic piece 114. Therefore, when the electrophoretic display key structure 250 in the key area 102 is pressed / contacted, the user senses the mechanical recovery force of the metal elastic piece 114 and knows that the electrophoretic display key structure 250 is pressed. Can do.

  In summary, according to the present invention, a plurality of electrodes are provided in each electrode block, and some electrodes are shared by two or more patterns in each electrode block. Therefore, it is not necessary to reduce the pattern size in order to prevent the patterns displayed by the electrophoretic display thin film from overlapping each other, and the pattern may have the same size as the key area. This can solve the problem of the prior art that the pattern cannot be identified due to the reduction of the electrophoretic display key structure. Further, the present invention can display patterns of different modes on the electrophoretic display thin film only by changing the electrode pattern in each electrode block. Accordingly, the electrophoretic display key structure can switch between various symbols or switch the symbol display direction.

  The above is a preferred embodiment of the present invention, and does not limit the scope of implementation of the present invention. Accordingly, any modifications or changes that can be made by those skilled in the art, which are made within the spirit of the present invention and have an equivalent effect on the present invention, belong to the scope of the utility model registration claim of the present invention. Shall.

DESCRIPTION OF SYMBOLS 10 Mobile telephone apparatus 12 Upper housing | casing 14 Lower housing | casing 16 Key structure 18, 20 Rotating shaft structure 22 1st direction 24 1st symbol 26 2nd direction 28 2nd symbol 100, 200, 250 Electrophoretic display key structure 102 Key Region 104 Control element 106 First printed circuit board 108 Electrophoretic display thin film 110 Transparent electrode layer 112 Keycap 114 Metal elastic piece 116 Elastic piece thin film 118 Plunger 120, 204 Second printed circuit board 122 Adhesive tape 124 Electrode block 126 First Electrode 128 Second electrode 130, 130a to 130d Common electrode 132 First pattern 134 Second pattern 136 Third electrode 138 Third pattern 140 Light guide plate 142 Adhesive layer 144 Light source 202 Capacitive touch panel

Claims (14)

An electrophoretic display key structure having a plurality of key areas and capable of switching a display direction,
A plurality of electrode blocks each corresponding to each of the plurality of key regions, each including a plurality of electrodes, wherein the plurality of electrodes in each electrode block constitute at least two patterns, and these patterns are the plurality of electrodes A first printed circuit board that shares
An electrophoretic display thin film provided on the first printed circuit board;
A transparent electrode layer provided on the electrophoretic display thin film;
An electrophoretic display key structure comprising: a control element provided in the plurality of key regions and generating an input signal.   The electrophoretic display key structure according to claim 1, wherein each of the at least two patterns is a letter, a number, or a special symbol.   The electrophoretic display key structure according to claim 1, wherein display directions of each of the at least two patterns are parallel to each other.   The electrophoretic display key structure according to claim 1, wherein display directions of each of the at least two patterns are perpendicular to each other.   5. The electrophoretic display key structure according to claim 1, wherein the electrophoretic display key structure further includes a plurality of key caps provided on the transparent electrode layer of each of the plurality of key regions.   The electrophoretic display key structure according to claim 5, wherein the plurality of key caps include an ultraviolet curable resin. The control element is
A second printed circuit board provided under the first printed circuit board;
An elastic piece thin film provided between the first printed circuit board and the second printed circuit board;
The electrophoresis according to claim 1, further comprising a plurality of metal elastic pieces respectively provided between the elastic piece thin film of each of the plurality of key regions and the second printed circuit board. Display key structure.   8. The control element according to claim 7, further comprising a plurality of plungers respectively provided between the first printed circuit board corresponding to each of the plurality of metal elastic pieces and each of the plurality of metal elastic pieces. Electrophoretic display key structure as described.   The electrophoretic display key structure according to claim 8, wherein the plurality of plungers include silicone or rubber.   The electrophoretic display key structure according to any one of claims 1 to 6, wherein the control element is a capacitive touch panel provided on the transparent electrode and electrically insulated from the transparent electrode layer. The electrophoretic display key structure further includes:
An elastic thin film provided under the first printed circuit board;
The electrophoretic display key structure according to claim 10, further comprising a plurality of metal elastic pieces respectively provided under the elastic piece thin film in the key region.   The electrophoretic display key structure further includes a plurality of plungers respectively provided between the first printed circuit board corresponding to each of the plurality of metal elastic pieces and each of the plurality of metal elastic pieces. Item 12. The electrophoresis display key structure according to Item 11. The electrophoretic display key structure further includes:
A light guide plate provided on the transparent electrode layer;
An adhesive layer provided between the light guide plate and the transparent electrode layer, and joining the light guide plate and the transparent electrode layer;
The electrophoretic display key structure according to claim 1, further comprising: a light source provided on one side of the light guide plate.   The electrophoretic display key structure according to claim 13, wherein the light source is a light emitting diode.

Images