JP5171656B2 - Light guide sheet, key input device, and portable terminal - Google Patents

Description

  The present invention relates to a light guide sheet formed in a flat plate shape for guiding irradiation light from light sources arranged on both side surfaces to a key top arranged on the upper surface, and a key input device including the light guide sheet. The present invention also relates to a portable terminal equipped with this key input device.

  FIG. 17A is a cross-sectional view showing an example of the structure of a key input device including a conventional light guide sheet for guiding irradiation light to the key sheet, FIG. 17B is an enlarged cross-sectional view of the light guide sheet, and FIG. ) Is a partially enlarged perspective view of the light guide sheet. However, (c) is a view showing the lower surface of the light guide sheet seen through from above, but for the sake of easy understanding, a reflective recess to be described later is shown by a solid line.

  In this key input device 100, a key sheet 120 having a large number of key switches 120 a is arranged on a substrate 110, and a metal dome 130 having a metal dome contact 131 is bonded and fixed on the key sheet 120 by a fixing sheet 135. A light guide sheet 140 is disposed on the key sheet 120 including the metal dome 130. On the light guide sheet 140, a key presser 150b is provided at the lower portion and the key top 150a is provided at the upper portion so as to face the key switch 120a. The formed key unit 150 is arranged. A light source 160 made of LEDs or the like is respectively provided on the left and right sides of the key sheet 120, the metal dome 130, the light guide sheet 140, and the key unit 150 (only the right side is shown in the drawing). It is an arranged configuration.

  As shown in FIG. 17B, the light guide sheet 140 is formed with a large number of reflective recesses 145 on the lower surface 141 for reflecting the irradiation light from the light source 160 upward and guiding it to the key top 150a. ing. As shown in FIG. 17C, the reflecting recesses 145 are formed in a conical shape, and are regularly arranged with a certain interval. By forming the concavity 145 for reflection in such a conical shape, all the light can be reflected upward regardless of the direction from which the light emitted from the light source 160 comes, so that the reflection efficiency can be improved. It is like that.

  In addition, the structure of the light guide sheet 140 provided with such a conical reflection recessed part 145 is described in Patent Document 1, for example.

JP 2002-49439 A

  When the shape of the reflective concave portion 145 of the light guide sheet 140 is a conical shape as described above, for example, even when there is a request to individually light each key according to the function or grouping of the keys, the light source By lighting 160, all the key tops shine, and there is a problem that it is impossible to realize individual lighting, particularly lighting for each grouped group.

  The present invention was devised to solve such a problem, and its purpose is to provide a key input device using a light guide sheet and a portable terminal with a very simple configuration and grouped key groups for each group. An object of the present invention is to provide a light guide sheet that can be turned on, a key input device including the light guide sheet, and a portable terminal equipped with the key input device.

In order to solve the above-mentioned problem, the light guide sheet of the present invention is for guiding the irradiation light of each light source incident from each of the end faces to the key tops grouped into a plurality of key top groups arranged on the upper surface. A light guide sheet formed in a flat plate shape, wherein a plurality of reflective recesses are formed on a lower surface of the light guide sheet to reflect the irradiation light upward and guide it to the key top. The concave portion is configured to reflect light from any one light source upward toward a corresponding one of the key top groups, and to reflect a plurality of reflections so that light from other light sources is not reflected upward. It is characterized by being grouped into recess groups .

  In the key input device of the present invention, a key sheet is disposed on a substrate, a light guide sheet is disposed on the key sheet, a key unit having a key top is disposed on the light guide sheet, and the light guide In a key input device in which light sources made of light emitters are arranged on the substrate facing the end face of the sheet, light emitted from the light source is reflected upward on the lower surface of the light guide sheet and guided to the key top. A plurality of reflection recesses are formed, and the reflection recess is formed in a shape that reflects light from the one light source upward and does not reflect light from the other light source upward. It is characterized by that.

That is, among the plurality of reflection recesses, the reflection recess having a shape that reflects light from one light source upward and does not reflect the light from the other light source upward is defined as a first reflection recess. If the reflecting recess having a shape that reflects the light from the other light source upward is used as the second reflecting recess, the reflecting recess disposed under the key top is used for the first reflection. In the case of the concave portion, the key top is turned on by irradiation light from a light source (referred to as a first light source) disposed on one side and is emitted from a light source (referred to as a second light source) disposed on the other side. The illumination light does not light up. On the other hand, in the case where the reflective concave portion disposed at the lower part of the key top is the second reflective concave portion, the key top is turned on with the irradiation light from the second light source and is not turned on with the irradiation light from the first light source. It becomes. That is, the key top group in which the first reflecting recess group is arranged becomes the first group that is lit by the irradiation light from the first light source, and the key top group in which the second reflecting recess group is arranged is from the second light source. It becomes the 2nd group which lights with irradiation light. Thereby, it is possible to divide the key tops to be lit according to the light source to emit light.

  Here, the shape of the reflecting recess will be specifically described.

  The shape of the concave portion for reflection is a shape that is cut out in a state where the triangular prisms are arranged sideways, and a surface that is opposed to the irradiation light that has traveled in the light guide sheet is formed on an inclined surface. The opposite surface is formed as a vertical surface. When the reflecting recess has such a shape, the irradiation light that has traveled in the horizontal direction on the inclined surface is reflected toward the upper key top, while the irradiation light has traveled toward the opposite surface. Will be bounced off the vertical plane and will not be reflected upward.

  Further, in the present invention, the shape of the reflecting concave portion is a shape in which one divided body obtained by dividing the cylinder by ¼ along the central axis is cut out in a state of being horizontally disposed, and the inside of the light guide sheet The surface facing the traveling irradiation light is formed as a curved surface (divided curved surface of one divided body divided by 1/4), and the opposite surface is a vertical surface (one divided body divided by 1/4) May be formed on one divided vertical plane). Furthermore, the shape of the reflecting concave portion is a shape in which one divided body obtained by dividing the sphere along the central axis by 1/4 is cut out in a state of being horizontally disposed, and the irradiation that has progressed in the light guide sheet The surface facing the light is formed into a spherical surface (divided spherical surface of one divided body divided by 1/4), and the opposite surface is a vertical surface (one divided by one divided body divided by 1/4) It may be formed on a vertical surface. In this way, by forming the opposing surface as a curved surface or a spherical surface, when the irradiation light traveling in the light guide sheet is reflected upward, the reflection direction is diffused (diffused in the two-dimensional direction or the three-dimensional direction). Therefore, the entire key top arranged at the top can be lit uniformly. Further, since the amount of light increases by the amount of diffusion, the driving power of the light source can be reduced, so that power saving can be achieved.

  Further, in the present invention, as the arrangement configuration of the plurality of reflection concave portions, it is preferable to arrange them in a radial pattern around the light source. That is, by arranging along the light irradiation direction, more irradiation light can be reflected upward with less leakage, so even when the driving power of the light source is reduced, the brightness when the key top is turned on It is possible to ensure sufficient. Thereby, further power saving can be achieved.

  Further, in the present invention, the plurality of reflecting recesses may be arranged such that the arrangement interval on the side close to the light source is wide and gradually becomes narrower toward the far side. That is, the amount of irradiation light is sufficient on the side closer to the light source, but the amount of light decreases as the distance from the light source increases as the irradiation light diffuses. Therefore, the farther away from the light source, the narrower the interval between the reflective recesses, the more reflective recesses are arranged under the key top, so that more light is reflected upward. In other words, it is possible to cover the shortage of the amount of irradiated light with a large amount of reflection, so that the brightness when lit with a key top placed near the light source and a key top placed away from the light source. It is possible to maintain the same brightness.

  In the present invention, the plurality of reflecting recesses may be formed such that the width in the direction orthogonal to the light emitted from the light source is narrower toward the side closer to the light source and gradually increases toward the far side. That is, as the distance from the light source increases, the width of the reflecting recess is increased, so that a wider reflecting recess is disposed under the key top to reflect more light upward. In other words, it is possible to cover the shortage of the amount of irradiated light with a large amount of reflection, so that the brightness when lit with a key top placed near the light source and a key top placed away from the light source. It is possible to maintain the same brightness.

  Further, by mounting a key input device using such a light guide sheet on a mobile terminal, it is possible to provide a mobile terminal capable of lighting and displaying key tops in a plurality of patterns.

  Since the present invention is configured as described above, the grouped keys of the key unit can be individually turned on for each group with a very simple configuration such as devising the shape of the reflection recess of the light guide sheet. .

It is an external view which shows one Embodiment of the portable terminal which mounted the key input device provided with the light guide sheet of this invention. It is a disassembled perspective view of the portable terminal shown in FIG. It is a partially expanded sectional view of the portable terminal shown in FIG. It is explanatory drawing which shows the basic composition of the light-diffusion pattern in embodiment. It is a perspective view of the light-guide sheet of the structure which has arrange | positioned multiple reflection recessed parts. (A) is a top view of the light guide sheet of the structure which has arrange | positioned two or more reflection recessed parts, (b) is sectional drawing, (c), (d) is an image figure of lighting. It is a partial expanded sectional view of the light guide sheet in an embodiment. It is explanatory drawing which showed the lighting state of each keytop of a key unit when a 1st light source light-emits, and a 2nd light source light-emit. An actual arrangement configuration example (arrangement configuration example 1) of the concave portions for reflection is shown, (a) is a schematic plan view of a key unit, and (b) is a schematic plan view showing an enlarged one key top portion. . It is explanatory drawing which shows the arrangement structural example 2 of the recessed part for reflection. It is explanatory drawing which shows the arrangement structural example 3 of the recessed part for reflection. It is explanatory drawing which shows the arrangement structural example 4 of the recessed part for reflection. (A) is a perspective view of the light guide sheet | seat of the structure which has arrange | positioned several reflective recessed parts of another shape, (b) is sectional drawing. It is an expansion perspective view of the recessed part for reflection of another shape. (A) is a top view of the light guide sheet of the structure which has arrange | positioned two or more reflective recessed parts of another shape, (b) is sectional drawing. It is an expansion perspective view of the recessed part for reflection of another shape. It is explanatory drawing of the portable terminal which mounted the key input measure provided with the conventional light guide sheet, (a) is a partially expanded sectional view, (b) is a partially expanded sectional view of a light guide sheet, (c) is It is a schematic perspective view of a light guide sheet.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is an external view showing an embodiment of a portable terminal mounted with a key input device including a light guide sheet of the present invention, FIG. 2 is an exploded perspective view of the portable terminal shown in FIG. 1, and FIG. It is sectional drawing. The mobile terminals include various terminals such as a mobile phone, an electronic dictionary, and a PDA. Here, the configuration of the PDA will be described as an example.

  The mobile terminal according to the present embodiment has a configuration in which the first housing 1 and the second housing 2 are slidable in one direction X via the slide mechanism unit 3. The second housing 2 is disposed so as to fit into a recess 12 formed on the upper surface 11 of the first housing 1, and the side surface 12 a of the recess 12 faces the second housing 2. The slide mechanism unit 3 is disposed between the side surface 22a. That is, the slide mechanism unit 3 includes the left side surface 12a of the recess 12 and the left side surface 22a of the second housing 2 facing each other, and the right side surface 12a of the recess 12 and the right side of the second housing 2 facing each other. Are arranged between the side surfaces 22a of the two.

  And the 1st attitude | position (illustration omitted) in the state which the 2nd housing | casing 2 overlapped so that the recessed part surface 12b of the 1st housing | casing 1 might be covered completely, and the upper part of the recessed surface 12b of the 1st housing | casing 1 are remove | excluded. The first housing 1 and the second housing 2 are slidable relative to each other between a second posture (a state shown in FIG. 1) in a state where a part thereof is overlapped so as to expose the whole.

  A display unit including a liquid crystal panel 23 and the like is disposed on the surface of the second housing 2. Various function keys 13b including a power key and the like are arranged on the upper surface 11 on the left side of the first housing 1, and functions such as character keys and numeric keys are provided on the concave surface 12b of the first housing 1. An operation unit (key input device) including the key 13a is arranged.

  As shown in FIGS. 2 and 3, the first housing 1 is divided into an upper housing 1a and a lower housing 1b, and a large number of first housings 1 are disposed on a substrate 10 disposed in the lower housing 1b. The key sheet 14 having the key switches 14 a, 14 a,... Is arranged, and the metal dome 15 having the metal dome contact 15 a is bonded and fixed by the fixing sheet 151 on each key switch 14 a of the key sheet 14 ( However, the metal dome 15 is not shown in FIG. 2), and the light guide sheet 16 is disposed on the key sheet 14 including the metal dome 15, and the key switch 14 a is disposed on the light guide sheet 16. A key unit 17 having a key presser 17b at the bottom and a key top 17a at the top is disposed. The light guide sheet 16 is formed with a light diffusion pattern 16a at a position facing the key top 17a for reflecting and diffusing light so that the key top 17a is evenly irradiated with light. Then, light sources 18 (18a, 18b) made of LEDs or the like are respectively disposed on the left and right substrates 10 of the laminated key sheet 14, metal dome 15, light guide sheet 16, and key unit 17 (this embodiment). In this case, a total of two are arranged on the left and right.

  4A and 4B are explanatory views showing the basic configuration of the light diffusion pattern 16a in this embodiment, where FIG. 4A is a perspective view and FIG. 4B is a cross-sectional view. However, FIG. 4A is a view showing the lower surface 162 of the light guide sheet 16 seen through from above, but the reflective recess 163 is shown by a solid line for easy viewing.

  In the present embodiment, the light diffusion pattern 16 a is configured by a large number of reflective recesses 163 (only one is shown in FIG. 4) formed on the lower surface 162 of the light guide sheet 16.

  The reflecting recess 163 has a shape that is cut out from the lower surface 162 in a state where the triangular prisms are arranged in the horizontal direction, and has progressed in the light guide sheet 16 in the horizontal direction (the direction along the thickness of the light guide sheet 16). A surface facing the irradiation light from the light source 18 is formed on the inclined surface 1631, and a surface opposite to the irradiation light from the light source 18 is formed on the vertical surface 1632. By forming the reflecting recess 163 in such a shape, the inclined surface 1631 reflects the irradiation light traveling in the lateral direction toward the upper key top, while traveling toward the opposite vertical surface 1632. Irradiation light (irradiation light traveling from the right in the drawing in FIG. 4B) is bounced back in the original direction by the vertical surface 1632 and is not reflected upward.

  5 and 6 are explanatory views showing a configuration in which a plurality of reflecting recesses 163 having the above-described configuration are arranged. FIG. 5 is a perspective view, FIG. 6A is a plan view, FIG. c) and (d) are illustrations of lighting. However, FIG. 5 is a view showing the lower surface 162 of the light guide sheet 16 seen through from above, but the reflective recess 163 is shown by a solid line for easy viewing. FIGS. 5 and 6 are also diagrams for explaining the basic configuration of the reflective recesses 163, so that the number of the reflective recesses 163 is regularly arranged with a total of 12 pieces, 4 in length and 3 in width. The simple arrangement configuration will be described below.

  In the present embodiment, the reflecting concave portion 163 having the shape as described above includes the first reflecting concave portion 163a arranged so that the inclined surface 1631 faces the first light source 18a arranged on the lower left side in the figure, and the inclined surface. 1631 is formed of two types of second reflecting recesses 163b disposed so as to face the second light source 18b disposed on the upper right side in the drawing.

That is, the first reflecting recess 163a is configured to reflect the irradiation light from the first light source 18a upward and not to reflect the light from the second light source 18b upward. Further, the second reflecting recess 163b has a configuration in which the irradiation light from the second light source 18b is reflected upward and the light from the first light source 18a is not reflected upward. Accordingly, as shown in FIG. 7 and FIGS. 6C and 6D, when the reflective recess 16 disposed in the lower portion of the key top 17a1 is the first reflective recess 163a, the key top 17a1 Is turned on by the irradiation light from the first light source 18a (see FIGS. 7A and 6C), and is not turned on by the irradiation light from the second light source 18b (FIGS. 7B and 6D). ) Reference) Configuration. On the other hand, when the reflective recess 163 disposed in the lower part of the key top 17a2 is the second reflective recess 163b, the key top 17a2 is lit by the irradiation light from the second light source 18b (FIG. 7B). ) And FIG. 6 (d)), the light is not turned on by the irradiation light from the first light source 18a (see FIG. 7 (a) and FIG. 6 (c)). Thus, the key top group of a group are arranged in the first reflective concave portion 163a constitute a first group of illuminated light irradiated from the first light source 18a, the key top group of second reflective concave portion 163b is arranged The group constitutes a second group that is turned on by irradiation light from the second light source 18b. Thus, the key top group to be lit can be divided into two according to the light source to emit light. When both the first light source 18a and the second light source 18b emit light, all the key tops 17a are lit as shown in FIG. 7C.

  FIG. 8 conceptually shows the lighting state of each key top 17a of the key unit 17 (that is, illumination by the backlight) when the first light source 18a emits light and when the second light source 18b emits light. It is a figure. That is, FIG. 8A shows a state in which the key top groups 17a1,... Belonging to the first group are lit when the first light source 18a emits light (in FIG. 8A, hatched lines are added). FIG. 8B shows a state in which the key top groups 17a2,... Belonging to the second group are lit when the second light source 18b emits light (FIG. 8B). ), With hatching.

  FIG. 9 shows an actual arrangement configuration example (arrangement configuration example 1) of the reflective recesses 163 formed as described above. FIG. 9A is a schematic plan view of the key unit 17, and FIG. ) Is a schematic plan view showing an enlarged part of one key top 17a1. FIG. 9 shows an arrangement relationship between the first light source 18a and the first reflecting recess 163a arranged below the one key top 17a1 belonging to the first group. However, FIG. 9 shows the second light source 18b and the second light source 18b. The same applies to the arrangement relationship with the first reflecting recess 163b arranged below the one key top 17a2 (see FIG. 7) belonging to the group.

  In the present embodiment, the first reflecting recesses 163a are arranged in a radial pattern around the first light source 18a. In other words, by arranging them side by side along the light irradiation direction (optical axis direction), more irradiation light can be reflected upward with less leakage, so that the brightness when the key top is turned on is sufficiently secured. It becomes possible.

  In the example shown in FIG. 9B, in the lower part of one key top 17a1, a plurality of first reflective recesses 163a are radially arranged in three examples. That is, in accordance with the shape of the key top 17a, three first reflecting recesses 163a are arranged in the outer row (the upper example in FIG. 9B) with a certain interval in the optical axis direction. In the middle row, five first reflecting recesses 163a are arranged at a certain interval in the optical axis direction, and in the inner row (the lower row in FIG. 9B) there are six pieces. The first reflecting recesses 163a are arranged at a constant interval in the optical axis direction. Thus, when the first light source 18a is caused to emit light, the entire key top 17a1 is lit (illuminated) with substantially uniform brightness.

<Another Arrangement Configuration Example of Reflection Recess 163 (Arrangement Configuration Example 2)>
FIG. 10 shows an arrangement configuration example 2 of the reflective recesses 163. FIG. 10 also shows the arrangement relationship between the first light source 18a and the first reflecting recess 163a arranged below the one key top 17a1 belonging to the first group. The same applies to the arrangement relationship with the first reflecting recess 163b arranged below the one key top 17a2 belonging to the group.

  In the arrangement configuration example 2, the plurality of first reflection recesses 163a have a wide arrangement interval (T) on the side close to the first light source 18a (T1), and the arrangement interval gradually decreases toward the far side (T2: T2). <T1). That is, the amount of irradiation light is sufficient on the side closer to the light source, but the amount of light decreases as the distance from the light source increases as the irradiation light diffuses. Therefore, the farther away from the light source, the narrower the interval between the reflecting recesses, so that more reflecting recesses are arranged under the key top far from the light source to reflect more light upward. It is. In other words, it is possible to cover the shortage of the amount of irradiated light with a large amount of reflection, so that the brightness when lit with a key top placed near the light source and a key top placed away from the light source. It is possible to maintain the same brightness. In addition, since a sufficient amount of light can be secured on the key top far from the light source, further power saving can be achieved.

<Another Arrangement Configuration Example of Reflection Recess 163 (Arrangement Configuration Example 3)>
FIG. 11 shows an arrangement configuration example 3 of the reflective recesses 163. FIG. 11 also shows the arrangement relationship between the first light source 18a and the first reflecting recess 163a arranged below the one key top 17a1 belonging to the first group. The same applies to the arrangement relationship with the first reflecting recess 163b arranged below the one key top 17a2 belonging to the group.

  In this arrangement configuration example 3, the plurality of first reflecting recesses 163a is narrower in the width (W) in the direction orthogonal to the irradiation light (optical axis direction) from the first light source 18a toward the side closer to the light source (W1). However, it is formed so that it gradually becomes wider (W2: W2> W1) as it goes to the far side. However, in this arrangement configuration example 3, the arrangement interval in the optical axis direction is constant. That is, as the distance from the light source is increased, the width (W) of the reflecting recess is increased so that a wider reflecting recess is disposed under the key top to reflect more light upward. In other words, it is possible to cover the shortage of the amount of irradiated light with a large amount of reflection, so that the brightness when lit with a key top placed near the light source and a key top placed away from the light source. It is possible to maintain the same brightness. In addition, since a sufficient amount of light can be secured on the key top far from the light source, further power saving can be achieved.

<Another Arrangement Configuration Example of Reflection Recess 163 (Arrangement Configuration Example 4)>
FIG. 12 shows an arrangement configuration example 4 of the reflective recesses 163. FIG. 12 also shows the arrangement relationship between the first light source 18a and the first reflecting recess 163a arranged below the one key top 17a1 belonging to the first group. The same applies to the arrangement relationship with the first reflecting recess 163b arranged below the one key top 17a2 belonging to the group.

  The arrangement configuration example 4 is a combination of the arrangement configuration example 2 and the arrangement configuration example 3 described above. In other words, the plurality of first reflecting recesses 163a have a wide arrangement interval (T) on the side close to the first light source 18a (T1) and a width (W) in a direction perpendicular to the optical axis direction (W1) However, the arrangement interval is gradually narrowed toward the far side (T2: T2 <T1) and the width (W) is widened (W2: W2> W1). By setting the arrangement interval and the width of the reflection recesses in this way, a sufficient amount of light can be secured even on the key top far from the light source, so that further power saving can be achieved.

<Another Specific Example of Shape of Reflective Recess 163>
13 and 14 show other specific examples of the shape of the reflective recess 163.

  In this specific example, the reflective recesses 163 (163a, 163b) are notched in a state where one divided body obtained by dividing the lower surface 162 of the light guide sheet 16 into quarters along the central axis is disposed sideways. It has become a shape. Then, a surface facing the irradiation light traveling in the lateral direction in the light guide sheet 16 is formed on a curved surface (divided curved surface of one quartered body) 1635, and this irradiation light is The opposite surface is formed as a rectangular-shaped vertical surface (one divided vertical surface of one divided body divided by 1/4) 1636. By forming the facing surface on the curved surface 1635 in this way, the irradiation light that has traveled in the lateral direction in the light guide sheet 16 can be reflected upward by the curved surface 1635. In this case, as shown in FIG. 14, since the reflection direction can be diffused (in this case, diffused in a two-dimensional direction) depending on the position where the curved surface 1635 hits, the entire key top arranged at the upper part is lit uniformly. It becomes possible.

<Another Specific Example of Shape of Reflective Recess 163>
15 and 16 show still another specific example of the shape of the reflective recess 163.

  In this specific example, the reflective recess 163 (163a, 163b) is notched in a state where one divided body obtained by dividing the lower surface 162 of the light guide sheet 16 into quarters along the central axis is disposed sideways. It has become a shape. Then, a surface facing the irradiation light traveling in the lateral direction in the light guide sheet 16 is formed on a spherical surface (divided spherical surface of one divided body divided by 1/4) 1637, and this irradiation light is The opposite surface is formed as a semicircular arc-shaped vertical surface (one divided vertical surface of one divided body divided by ¼) 1638. By forming the opposing surface on the spherical surface 1637 in this manner, the irradiation light that has traveled in the lateral direction in the light guide sheet 16 can be reflected upward by the spherical surface 1637. In this case, as shown in FIG. 16, the reflection direction can be diffused (diffused in the three-dimensional direction in this case) by the position where the spherical surface 1637 hits, so that the entire key top arranged at the upper part is lit uniformly. It becomes possible.

  In the above-described embodiment, the light sources are arranged on the two end surfaces on both the left and right sides of the light guide sheet. However, the light sources are arranged on the three end surfaces of the light guide sheet or the four upper, lower, left and right end surfaces. It is good also as a structure which provided each said recessed part for reflection with respect to each irradiation direction. When the light source is arranged on the left and right side end faces of the light guide sheet, the key top can be lit in three patterns, and the light source can be displayed in the three directions of the light guide sheet (for example, the left and right sides and the lower side). When arranged on the end surfaces, the key tops can be lit and displayed in 7 patterns, and when the light sources are arranged on the end surfaces in the four directions of the upper, lower, left and right directions, the key tops can be lit and displayed in 15 patterns. In the above-described embodiment, one light source is disposed on each end face, but a plurality of light sources may be disposed on each end face.

  As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to the above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to

DESCRIPTION OF SYMBOLS 1 1st housing | casing 2 2nd housing | casing 3 Slide mechanism part 10 Board | substrate 11 Upper surface 12 Recessed part 13a, 13b Function key 14 Key sheet 14a Key switch 15 Metal dome 15a Metal dome contact 16 Light guide sheet 17 Key unit 17a (17a1, 17a2 ) Key top 18 light source 18a first light source 18b second light source 23 liquid crystal panel 162 lower surface 163 reflecting recess 163a first reflecting recess 163b second reflecting recess 1631 inclined surface 1632 vertical surface 1635 curved surface (divided curved surface)
1637 Sphere (divided sphere)
1636, 1638 Vertical plane (divided vertical plane)

Claims (10)

A light guide sheet formed in a flat plate shape for guiding irradiation light of each light source incident from each of the end faces to key tops grouped into a plurality of key top groups arranged on the upper surface,
A plurality of reflection recesses for reflecting the irradiation light upward and guiding it to the key top are formed on the lower surface of the light guide sheet, and the plurality of reflection recesses receive light from any one light source. It is grouped into a plurality of reflecting recess groups that are configured to reflect upward toward any one of the corresponding key top groups and not to reflect light upward from other light sources. Light guide sheet. The light guide sheet according to claim 1,
The light guide sheet according to claim 1, wherein the concave portion for reflection is a shape that is cut out in a state in which triangular prisms are arranged sideways. The light guide sheet according to claim 2,
The light guide sheet is characterized in that the reflective concave portion is formed with an inclined surface facing the irradiation light traveling in the light guide sheet, and an opposite surface is formed with a vertical surface. . The light guide sheet according to claim 1,
The shape of the concave portion for reflection is a shape in which one divided body obtained by dividing a cylinder by a quarter along the central axis is cut out in a state of being arranged sideways, and the irradiation light traveling in the light guide sheet The light guide sheet is characterized in that the opposite surface is formed as a curved surface and the opposite surface is formed as a vertical surface. The light guide sheet according to claim 1,
The shape of the concave portion for reflection is a shape in which one divided body obtained by dividing a sphere along a central axis by being cut out in a state of being horizontally disposed, and the irradiation light that has traveled through the light guide sheet. The light guide sheet is characterized in that the opposite surface is formed as a spherical surface and the opposite surface is formed as a vertical surface. In the light guide sheet according to any one of claims 1 to 5,
The light guide sheet, wherein the plurality of reflective recesses are arranged radially around the light source. The light guide sheet according to claim 6,
The light guide sheet, wherein the plurality of recesses for reflection have a wide arrangement interval on the side close to the light source and are arranged so as to gradually become narrower toward the far side. In the light guide sheet according to claim 6 or 7,
The plurality of reflection recesses are formed such that the width in the direction orthogonal to the irradiation light from the light source is narrower toward the side closer to the light source and gradually increases toward the far side. . A key sheet is disposed on the substrate, a light guide sheet is disposed on the key sheet, a key unit having a key top is disposed on the light guide sheet, and the key unit is disposed on the substrate facing the end surface of the light guide sheet. In the key input device in which the light sources each consisting of a light emitter are arranged,
The key guide device according to claim 1, wherein the light guide sheet is the light guide sheet according to claim 1.   A portable terminal comprising the key input device according to claim 9.

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