JP2008034337A - Light guide plate for push-button switch device and push-button switch device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light guide plate for a push-button switch device flexible and capable of surely lighting the push button, and the push-button switch device using it. <P>SOLUTION: The light guide plate 30 for a push-button switch is the light guide plate 30 guiding light emitted from an LED as a light source 24. The light guide plate 30 is made of a thin-plate transparent rubber formed object, put just under a push button 10, and includes a lighting part 32 lighting the push button 10 between the bush button 10 and a switch 22. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a flexible light guide plate for a push button switch device and a push button switch device that can reliably illuminate a push button and can be operated independently without affecting a push button provided next to the push button.

  Conventionally, an illumination type push button switch device for illuminating a plurality of push buttons has been adopted in devices such as a mobile phone, a cordless phone, a remote controller, and a car audio (for example, see Patent Document 1). As a light source of such a pushbutton switch device, an LED or the like with low power consumption is used, and light from the LED illuminates each pushbutton through a light guide plate. Patent Document 1 discloses a shape for obtaining a hard tactile sensation by directly contacting a click plate presser having a Shore D hardness of 40 degrees or more and a click plate for the purpose of obtaining an excellent click feeling. There is no light guide plate immediately below the LED, and LEDs are arranged in the vicinity of the switch using a space without the light guide plate (see FIGS. 1 to 3 of Patent Document 1). Therefore, the arrangement of each member of an appropriate illuminated pushbutton switch device is shown in FIG. 1 of Patent Document 1. In Example 1, “polycarbonate light guide plate, LED, circuit board (facing the movable contact of the click plate) And a resin key-top character illuminated pushbutton switch device (paragraph 0022) is disclosed, and in Example 2, “a light guide plate made of acrylic, LED, etc. A built-in illuminated pushbutton switch device "(paragraph 0023) is disclosed.

  In Patent Document 1, a hard light guide plate is used, there is no light guide plate directly under the push button, and there is no LED position on the end side surface of the light guide plate. Therefore, the push button is not illuminated from directly below the push button, but the push button is illuminated from the periphery of the push button by the light guide plate, so that the efficiency of illuminating the push button is low. In addition, for example, it has not been possible to meet the demand for thinner or smaller devices such as mobile phones.

  In addition, as the light guide plate, for example, there is an acrylic light guide plate employed in an edge type backlight of a liquid crystal display device (see, for example, Patent Document 2). In the edge type backlight, the light source is arranged at the edge part (side part) of the liquid crystal panel, the light from the light source enters from one end of the acrylic resin light guide plate, and the liquid crystal panel is reflected by the reflected light on the back surface of the light guide plate. It was emitting light.

Furthermore, a translucent display panel has been proposed in which a light-shielding layer is provided on a light-transmitting substrate, and a display portion is formed on the light-shielding layer by laser marking (for example, see Patent Document 3). The laser marking process of Patent Document 3 has been limited to merely shaving the light shielding layer and forming a translucent display.
JP-A-8-50831 JP 2002-244575 A JP 2002-207445 A

  An object of the present invention is to provide a flexible light guide plate for a pushbutton switch device that can efficiently and surely illuminate directly under the pushbutton while having a simple structure, and can be thinned as a pushbutton switch device, and a pushbutton switch device using the same. There is to do.

The light guide plate for the pushbutton switch device of the present invention is
A light guide plate for guiding light emitted from a light source,
It consists of a thin transparent rubber molded body,
An illumination unit that is directly under the push button and illuminates the push button is provided between the push button and the switch.

  According to the light guide plate for a push button switch device of the present invention, by using a flexible transparent rubber molded body, even if the light guide plate is formed just below the push button, the push button does not become an obstacle to press the switch, and the push button is pushed. Sometimes don't press the adjacent pushbutton by mistake. Moreover, since there is an illuminating part directly under the push button and there is no illuminating part in the peripheral part directly below the push button forming the interval between the plurality of push buttons, the push button can be efficiently illuminated, and the push button switch device can be made thin. Can be achieved.

In the light guide plate for the pushbutton switch device according to the present invention,
The illumination unit is disposed at a plurality of locations corresponding to the plurality of push buttons,
The reflectance in the illumination part far from the light source can be formed higher than the reflectance in the illumination part close to the light source.

  By adopting such a configuration, it is possible to compensate for the tendency of the amount of light guided by the light guide plate to decrease as the distance from the light source provided at, for example, the side end of the transparent rubber molded body, and uniformly illuminate each push button. And the luminance of the push button can be made uniform.

In the light guide plate for the pushbutton switch device according to the present invention,
The illumination unit may have a plurality of concave portions or convex portions formed on the surface of the transparent rubber molded body.

  With such a configuration, it is possible to illuminate the push button with a single light guide plate without using a conventional reflector.

In the light guide plate for the pushbutton switch device according to the present invention,
The illumination part has a plurality of recesses formed on the surface of the transparent rubber molded body,
The number of recesses in the illumination part far from the light source may be formed more than the number of recesses in the illumination part near the light source.

  With such a configuration, a plurality of push buttons can be illuminated uniformly.

In the light guide plate for the pushbutton switch device according to the present invention,
The illumination part has a plurality of recesses formed on the surface of the transparent rubber molded body,
The total area of the recesses in the illumination part far from the light source may be formed larger than the total area of the recesses in the illumination part close to the light source.

  By adopting such a configuration, it is possible to form the illumination portion with a relatively simple shape, and it is possible to easily adjust the reflectance in each illumination portion by changing the area of the recess, Light can be adjusted to uniform brightness. In addition, since the light extraction efficiency from the light guide plate is high, the push button can be illuminated efficiently and brightly even with a small light source.

In the light guide plate for the pushbutton switch device according to the present invention,
The recess may be formed by laser marking.

  By setting it as such a structure, a desired shape can be reliably and easily formed in the desired location on the surface of a transparent rubber molding. In addition, it is possible to perform processing with high light extraction efficiency from the light guide plate.

In the light guide plate for the pushbutton switch device according to the present invention,
The transparent rubber molded body preferably has a total light transmittance of 80% or more.

  By setting it as such a structure, the light from a light source can be guided efficiently.

In the light guide plate for the pushbutton switch device according to the present invention,
The transparent rubber molded body preferably has a thickness of 0.2 mm to 1 mm and a durometer A hardness of 40 degrees to 90 degrees.

  By adopting such a configuration, the light guide plate is thin and flexible, so that only the switch immediately below the push button can be surely pushed by the push button, and the push button is not accidentally pushed to the adjacent switch by the light guide plate. Thinning of the switch device can be achieved.

In the light guide plate for the pushbutton switch device according to the present invention,
The transparent rubber molded body may be formed of at least one transparent rubber selected from silicone rubber, urethane rubber, and urethane elastomer.

In the light guide plate for the pushbutton switch device according to the present invention,
It can be used for a mobile phone.

The push button switch device of the present invention is
A plurality of push buttons, a switch corresponding to the push button, a light guide plate provided between the push button and the switch for guiding light emitted from the light source, and a light source provided at a side end of the light guide plate And having
The light guide plate is made of a transparent thin plate-like transparent rubber molded body, and is directly below the push button, and an illumination portion for illuminating the push button is formed between the push button and the switch.

  According to the push button switch device of the present invention, by using the light guide plate of a thin transparent rubber molded body, even if the light guide plate is formed just below the push button, the push button does not hinder the switch from being pressed. In addition, since the light guide plate has an illuminating portion only directly below the push button, the push button can be illuminated efficiently without losing light, and the push button switch device can be thinned.

In the pushbutton switch device according to the present invention,
The push button may include a phosphor that is excited by light from the light source.

  By setting it as such a structure, a push button can be made to shine in a desired color by the illumination from the illumination part of a light-guide plate.

In the pushbutton switch device according to the present invention,
The push button may have a light guide part in which a concave part or a convex part is formed on a surface in contact with the illumination part.

  By adopting such a configuration, light can be extracted from the light guide portion of the light guide plate because the light guide portion of the push button is in contact with the light guide portion, so that the portion corresponding to the push button on the light guide plate can be reliably illuminated. Can be made.

In the pushbutton switch device according to the present invention,
It can be used for a mobile phone.

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

  FIG. 1 is a perspective view schematically showing a foldable mobile phone 1 including a push button switch device according to an embodiment of the present invention. FIG. 2 is a partial longitudinal sectional view schematically showing the push button switch device 8 according to the embodiment of the present invention. FIG. 3 is a plan view schematically showing the light guide plate 30 according to the embodiment of the present invention. FIG. 4 is a schematic plan view illustrating the illumination unit 32a. FIG. 5 is a schematic B-B ′ sectional view for explaining the illumination unit 32 a of FIG. 4. FIG. 6 is a longitudinal sectional view showing the light guide unit 16. FIG. 7 is a plan view schematically showing a car navigation system 50 including a push button switch device according to another embodiment of the present invention. FIG. 8 is a plan view schematically showing the light guide plate 64 used in the car navigation system 50. FIG. 9 is a longitudinal sectional view schematically showing a combination of the light guide member 80 and the light guide plate 30. FIG. 10 is a perspective view of the light guide member 80.

  A light guide plate for a push button switch device according to an embodiment of the present invention is a light guide plate that guides light emitted from a light source, is made of a thin transparent rubber molded body, and is directly below the push button. And an illuminating unit for illuminating the push button between the switch and the switch.

  A push button switch device according to an embodiment of the present invention includes a plurality of push buttons, a switch corresponding to the push button, a light guide plate that is provided between the push button and the switch and guides light emitted from a light source, The light guide plate is made of a thin transparent rubber molded body, and is directly below the push button, and an illuminating portion for illuminating the push button is formed between the push button and the switch.

1. Foldable mobile phone As shown in FIG. 1, a foldable mobile phone 1 including a push button switch device 8 according to an embodiment of the present invention includes an upper housing portion 3 and a lower housing portion 4. The end portion of the lower casing portion 4 and the end portion of the lower housing portion 4 are connected to each other by a rotating unit 5 so as to be opened and closed. An LCD (Liquid Crystal Display) 2 for displaying an image is provided on one surface of the upper casing 3, and a push button switch device 8 is built in the lower casing 4. The push button 10 protrudes from one surface of the lower housing part 4. The LCD 2 of the upper casing 3 and the push button 10 of the lower casing 4 can be folded inside.

2. Pushbutton Switch Device FIG. 2 is a longitudinal sectional view of a part of the lower casing portion 4 of the foldable mobile phone 1 of FIG. 1 and schematically shows the pushbutton switch device 8. Inside the lower housing portion 4, as the push button switch device 8, a plurality of push buttons 10, a switch 22 corresponding to the push button 10, and a light guide plate 30 that guides light emitted from the light source 24 are provided. The light guide plate 30 is made of a thin transparent rubber molded body, and is directly below the push button 10, and an illumination unit 32 that illuminates the push button 10 is formed between the push button 10 and the switch 22.

  A circuit board 20 is provided below the lower housing 4, and the circuit board 20 has an LED (light emitting diode) as a light source 24 mounted on the end thereof, and a switch 22 at a position directly below the plurality of push buttons 10. It is equipped with. A key sheet 12 in which a plurality of push buttons 10 are integrally formed is disposed above the lower housing portion 4, and a presser 14 protruding from the key sheet 12 is formed on the back surface of each push button 10. Between the key sheet 12 and the circuit board 20, a light guide plate 30 made of a thin transparent rubber molding is disposed. Therefore, when a specific push button 10 is pressed, the pusher 14 on the back side of the push button 10 pushes the switch 22 on the circuit board 20 corresponding to the push button 10 pressed through the light guide plate 30 so that the specific switch circuit is opened and closed. It has become.

  The key sheet 12 is made of a transparent elastic material such as silicone rubber or urethane-based thermoplastic elastomer, and is joined to the push button 10 and a presser 14 is joined to the opposite side. These three members may be of the same quality. Characters and symbols are printed on the push button 10. Since the key sheet 12 needs to be deformed when the push button 10 is pressed, it is preferably an elastic material having a degree of flexibility that does not affect the adjacent push button. However, the push button 10 and the presser 14 have a certain degree of hardness. It is good also as a transparent resin molding. In addition, the push button 10 and the pusher 14 may include a known phosphor that is excited by the light of the light source 24 in order to cause the push button 10 to shine in a desired color.

3. The light guide plate 30 is a thin transparent rubber molded body, and in order to efficiently guide the light from the light source 24, the total light transmittance is preferably 80% or more, and the total light transmittance is More preferably, it is 90% or more. Further, the transparent rubber molded body constituting the light guide plate 30 has a thickness capable of guiding light from the light source from the side end portion 33, and is flexibly deformed and pressed when the push button 10 is pressed. Only the switch 22 corresponding to the push button 10 must be pushed through the pusher 14 and the light guide plate 30. That is, if the light guide plate 30 is hard, the switch 22 adjacent to the pressed push button 10 is erroneously pressed, and thus the light guide plate 30 needs to have a predetermined flexibility. The transparent rubber molded body constituting the light guide plate 30 preferably has a thickness of 0.2 mm to 1 mm and a durometer A hardness of 40 degrees to 90 degrees in order to have sufficient light guide properties and predetermined flexibility. It is preferable that If the thickness of the light guide plate 30 is less than 0.2 mm, it is difficult to process the recess of the illuminating part and the handling property is impaired. In addition, the rigidity resulting from the thickness increases, which is not preferable. Further, the durometer A hardness of the light guide plate 30 is a rubber region where the transparency of the transparent rubber molded body is obtained, and it is necessary that the handling property is not impaired. 90 degrees or less is preferable because only a specific switch is pressurized and the flexibility of deformation is impaired.

  As a method of preferably adjusting the durometer A hardness of the transparent rubber of the present invention, in addition to changing the molecular design of the material used, by adding a vulcanizing agent or adding transparent fine particles such as silica, Can be adjusted.

  The transparent rubber molded body constituting the light guide plate 30 of the present invention has flexibility and elasticity that can be deformed and recovered between the specified push button and the corresponding switch without erroneously pushing the adjacent push button. The rubber material is not particularly limited as long as it is a transparent sheet-forming ability, and examples thereof include styrene elastomer, acrylic rubber, ethylene propylene rubber, urethane rubber, and silicone rubber. From the viewpoint of stability, processability, etc., the transparent rubber molded body is preferably molded from at least one transparent rubber selected from silicone rubber, urethane rubber and urethane elastomer. Among urethane rubbers, ether urethane is used. Rubber is preferred from the viewpoint of chemical stability. Further, a silicone rubber having the same color position in the illumination part close to the light source and the illumination part far from the light source is preferable.

  Light-guiding plastic resins such as acrylic and polycarbonate have the ability to form transparent sheets with elasticity, but they are not as soft as rubber, so if you press a specific push button, you press the adjacent push button switch incorrectly. Therefore, it is not suitable for the present invention.

  The light guide plate 30 has an illuminating unit 32 (indicated by 32a to 32d in FIG. 2) that illuminates the push button 10 via the pusher 14 between the push button 10 and the switch 22 immediately below each push button 10. . The illumination part 32 can have a plurality of recesses or protrusions formed on the surface of the transparent rubber molded body, and the recesses 34 are formed in the present embodiment. About the shape of a recessed part or a convex part, if it is a shape which can reflect light efficiently from the surface of the light-guide plate 30, it will not specifically limit. The illumination unit 32 is arranged at a plurality of locations corresponding to the plurality of push buttons 10, and the illumination unit 32 d farther from the light source 24 than the reflectance of the illumination unit 32 a close to the light source 24 by changing the number and depth of the recesses 34. It is formed so that the reflectance at is higher. Therefore, even if the amount of light guided by the light guide plate 30 is reduced due to the distance from the light source 24, the reflectance at the illuminating unit 32 increases, so that the plurality of push buttons 10 can be illuminated uniformly. The luminance can be made almost uniform.

  FIG. 3 is a schematic plan view of the light guide plate 30. In the present embodiment, the light guide plate 30 has 21 illumination parts 32a to 32g corresponding to the 21 push buttons 10, and the recessed part 34 has the illumination parts 32a to 32g. It is formed as a linear groove 34 traversing the inside. In FIG. 3, the dotted line indicates the area of the illumination unit 32 as a guide, and the arrow indicates the optical axis from the light source. The number of grooves 34 in the illumination part 32g far from the light source 24 is formed more than the number of grooves 34 in the illumination part 32a close to the light source 24. For example, in FIG. 3, the number of grooves 34 in the illumination part 32a is two, and the number of grooves 34 increases by two as the illumination part is far from the light source 24, and 14 grooves 34 are formed in the illumination part 32g. Further, the total area of the grooves 34 in the illumination part 32 g far from the light source 24 is formed wider than the total area of the grooves 34 in the illumination part 32 a close to the light source 24. Thus, the reflectance in the illumination unit can be adjusted as appropriate depending on the number and area of the grooves 34.

The groove 34 can be formed by a laser marking process. The laser marking process can be performed by irradiating laser light using various general laser marking apparatuses using, for example, a YAG laser or a CO ₂ laser. At that time, the number, width, length, depth (laser light irradiation time), angle, and the like of the desired groove 34 are set in advance in accordance with each illuminating section 32, and laser marking processing is performed reliably and easily. can do. Laser marking is the most preferable method for forming concave and convex portions such as grooves in the illumination part, but is not limited to this, and the method of digging the surface of the transparent rubber molded body by sandblasting, corona discharge, etc. Alternatively, a method of forming a concave or convex portion in the mold in advance and molding the transparent rubber molded body by pressing, or a method of forming by printing such as spray printing or screen printing may be appropriately employed. it can. Further, the method is not limited to the uneven shape, and for example, a method of partially embedding a light scattering agent in the transparent rubber molded body as a reflecting material using light reflection may be employed.

  At one side end portion 33 of the light guide plate 30, two light receiving portions 31 are formed in contact with the two light sources 24 arranged on the circuit board 20. The light emitted from the light source 24 enters the light guide plate 30 from the light receiving unit 31, and travels through the light guide plate 30 toward the other end 36 facing the light receiving unit 31. The groove 34 is formed on the surface of the light guide plate in a straight line inclined 45 degrees to the left and right with respect to the traveling direction of the light emitted from the light source 24, and the other groove 34b intersects the one groove 34a at a right angle. It is formed in a lattice pattern. By arranging the groove 34 obliquely with respect to the optical axis of the light source in this way, the light hitting the groove 34 is not reflected to the light source 24 but can be guided to another illumination unit 32, and the light of the light source 24 Can be used efficiently. As a result, the light guided to the light guide plate is efficiently extracted by being reflected by the illuminating unit 32 having the grooves 34 cut therein.

  4 and 5 are a schematic plan view and a schematic cross-sectional view showing an illumination part 32a according to another embodiment of the present invention in which the recess 34 is formed in a cylindrical shape. In FIG. 4, the light can be applied to all the concave portions 34 by shifting the concave portions 34 in the lateral direction with respect to the light traveling direction indicated by the arrow A in FIG. In addition, even when the depth of the recess 34 is gradually increased along the light traveling direction as shown in FIG. 5, the light can be used efficiently. The shape of the concave portion 34 is not limited to a linear groove or a cylindrical shape, but may be a polygonal column shape, a star-shaped column shape, or a weight shape thereof, or a substantially hemispherical shape. There may be.

  FIG. 6 is a longitudinal sectional view showing another embodiment of the push button switch device 8a. The pressing element 14 on the back side of the push button 10 has a light guide portion 16 in which a concave portion or a convex portion is formed on a surface that contacts the illumination portion 32. For example, in FIG. 6, a convex portion is formed on the light guide portion 16. By providing a convex portion on a part of the surface of the pressing element 14, the lower switch 22 can be reliably pressed through the light guide plate 30.

  When the light guide plate 30 made of a transparent rubber molding is in close contact with another surface, light can be extracted from the close contact portion. Therefore, light can be taken out from the illumination unit 32 of the light guide plate 30 by the light guide unit 16 coming into contact with the illumination unit 32, so that the portion corresponding to the push button 10 in the light guide plate 30 can be illuminated reliably. The amount of light extracted from the illumination unit 32 can also be adjusted by adjusting the number of projections of the light guide unit 16 and the contact area between the projections and the illumination unit 32 according to the distance of the pressing member 14 from the light source 24. The light of the illumination unit 32 other than the portion where the presser 14 is in close contact with the light guide plate 30 is also transmitted through the presser 14 and the key sheet around the presser 14 to illuminate the push button 10.

  In the present embodiment, the width of the light emitting portion of the light source 24 is substantially the same as the thickness of the light guide plate 30, but the width of the light emitting portion of the light source 24 may be larger than the thickness of the light guide plate 30. . In that case, in order to efficiently enter the light from the light source 24 into the light guide plate 30, for example, as shown in FIGS. 9 and 10, between the light receiving portion 31 of the light guide plate 30 and the light emitting portion of the light source 24. The light guide member 80 may be interposed, or the side end portion 33 of the light guide plate 30 may be thickened to the width of the light emitting portion of the light source 24 and the light receiving portion 31 may be inclined. For example, as shown in FIGS. 9 and 10, the light guide member 80 includes a light receiving portion 82 of the light guide member 80 in which the light emitting portion 25 of the LED serving as the light source 24 faces and closely contacts, and an end portion facing the light receiving portion 82. The light guide plate 30 has a close contact portion 86 that is in close contact with the light receiving portion 31 and an inclined surface 84 that is inclined from the light receiving portion 82 of the light guide member 80 toward the close contact portion 86. The light receiving portion 82 of the light guide member 80 has a tapered shape that is thicker than the light emitting portion 25 of the light source 24 and thins along the inclined surface 84 toward the light receiving portion 31 of the light guide plate 30. In addition, the width of the light guide member 80 extends in a fan shape from the light receiving portion 82 side of the light guide member 80 toward the light receiving portion 31 of the light guide plate 30. The contact portion 86 is formed in a thin and widened portion of the light guide member 80 and is formed by being cut out in a longitudinal section L-shape that is in close contact with the side end portion 33 of the light guide plate 30 and the upper surface of the light receiving portion 31. . Therefore, the light emitted from the light source 24 is guided from the light receiving portion 82 of the light guide member 80 to the contact portion 86 and is incident on the light guide plate 30 from the light receiving portion 31 of the light guide plate 30 that is in close contact with the contact portion 86. The light guide member 80 may be the same as the material of the light guide plate 30, or may be other transparent resin or rubber. By using such a light guide member 80, even when the width of the light source 24 is thicker than that of the light guide plate 30, the light from the light source 24 can be incident on the light guide plate 30 without waste.

  In FIG. 9, the bottom surface 88 of the light guide member 80 is formed on the same surface as the light guide plate 30 and has a compact structure formed on a surface parallel to the circuit board 20, but sandwiches the light guide plate 30. It may be a light guide member of a shape contrasting upper and lower. Between the light guide plate 30 and the circuit board 20, a spacer that does not adhere to the light guide plate 30, such as a nonwoven fabric, paper, or a porous film, may be disposed from the viewpoint of workability.

  In the present embodiment, an LED is used as a light source, but another light emitting element such as an organic EL or a fluorescent lamp may be used as the light source, and can be appropriately selected according to the application. In addition, when an LED is used as the light source, the wavelength of the specific monochromatic light of the LED can be converted and then guided to the light guide plate by covering or sticking the light emitting portion of the LED with a rubber sheet containing a phosphor. is there. In the present embodiment, the push button switch device 8 of the foldable mobile phone 1 has been described. However, the present invention is not limited to this, and a mobile phone, a cordless phone, a remote controller, a car audio, The present invention can be applied to a device equipped with a push button switch device such as a car navigation system. For example, the push button switch device 58 of the car navigation system 50 as shown in FIG. In the car navigation system 50, an LCD 52 for displaying a map is arranged at the center of a main body 53, and a plurality of push buttons 55 are arranged vertically on both sides thereof. The push button switch device 58 has basically the same configuration as the push button switch device 8 of the foldable mobile phone 1. The push button switch device 58 has a plurality of push buttons 55 and push buttons 55 corresponding to the push button switch device 58 inside the main body 53. And a light guide plate 64 that guides light emitted from a light source 60 of a fluorescent lamp, for example. The light guide plate 64 is made of a transparent thin plate-like transparent rubber molded body, and is directly below the push button 55, and an illuminating portion 62 for illuminating the push button 55 is formed between the push button 55 and a switch (not shown). Yes. As shown in FIG. 8, the light guide plate 64 has an inverted U shape excluding the area of the LCD 52, and a cutout portion 70 is formed in the corresponding area of the LCD 52, and a plurality of illumination parts are arranged in the vertical direction on both sides thereof. 62 is arranged. In the left and right illumination unit 62 group, for example, an LED as the light source 60 is disposed at the upper end of the light guide plate 64. For example, cylindrical recesses as shown in FIGS. 4 and 5 are arranged in a staggered manner in the illumination unit 62, and the illumination units farther from the light source 60 than the number of recesses in the illumination unit 62 close to the light source 60. Since the number of the concave portions in 62 is larger, the reflectance in the illumination portion 62 is adjusted. Therefore, even if the amount of light guided by the light guide plate 64 decreases as the distance from the light source 60 decreases, the reflectance of the illumination unit 62 increases, so that the luminance of the plurality of push buttons 62 can be made substantially uniform.

  A light guide plate 30 as shown in FIG. The light guide plate 30 is a molded body having a thickness of 0.4 mm obtained by pressing using an ultra-transparent silicone rubber having a durometer A hardness of 40 degrees and a total light transmittance of 94% or more, and is surrounded by a dotted line. Thus, 21 elliptical illumination parts 32 of 3 columns × 7 rows were formed. The linear groove 34 of the illumination unit 32 is processed by laser marking, has a depth of about 5 μm, a groove width of 0.1 mm, and extends straight from the light source 24 toward the other end 36 facing the light source 24. It was formed in a lattice pattern having an inclination of 45 degrees to the left and right with respect to the light traveling direction. The number of the grooves 34 is 2 for the illumination part 32a, 4 for the illumination part 32b, 6 for the illumination part 32c, 8 for the illumination part 32d, 10 for the illumination part 32e, 12 for the illumination part 32f, 32 g was 14 pieces.

  When a blue LED was arranged as the light source 24 in the light receiving portion 31 of the light guide plate 30 and light was incident from the end portion of the light guide plate 30, the appearance of the light of each illumination portion 32 was almost uniform.

1 is a perspective view schematically showing a foldable mobile phone 1 including a push button switch device according to an embodiment of the present invention. It is a fragmentary longitudinal cross-sectional view which shows typically the pushbutton switch apparatus 8 which is embodiment of this invention. It is a top view which shows typically the light-guide plate 30 which is embodiment of this invention. It is a schematic plan view explaining the illumination part 32a. FIG. 5 is a schematic B-B ′ cross-sectional view of the illumination unit 32 a of FIG. 4. FIG. 4 is a longitudinal sectional view showing a light guide unit 16. It is a top view which shows typically the car navigation system 50 provided with the pushbutton switch apparatus of other embodiment of this invention. 4 is a plan view schematically showing a light guide plate 64 used in the car navigation system 50. FIG. 4 is a longitudinal sectional view schematically showing a combination of a light guide member 80 and a light guide plate 30. FIG. 4 is a perspective view of a light guide member 80. FIG.

Explanation of symbols

1 Folding mobile phone 2 LCD
DESCRIPTION OF SYMBOLS 3 Upper housing | casing part 4 Lower housing | casing part 5 Rotating unit 8 Pushbutton switch apparatus 10 Pushbutton 12 Key sheet 14 Presser 16 Light guide part 20 Circuit board 22 Switch 24 Light source (LED)
30 Light guide plate 31 Light receiving part 32 Illumination part 33 Side end part 34 Recessed part (groove)
36 End 50 Car navigation system 52 LCD
53 Main body 55 Push button 58 Push button switch device 60 Light source 64 Light guide plate 62 Illumination part 70 Notch part 80 Light guide member 82 Light receiving part 84 Inclined surface 86 Adhering part

Claims (14)

A light guide plate for guiding light emitted from a light source,
It consists of a thin transparent rubber molded body,
A light guide plate for a push button switch device, which is provided directly below the push button and has an illumination unit that illuminates the push button between the push button and the switch. In claim 1,
The illumination unit is disposed at a plurality of locations corresponding to the plurality of push buttons,
A light guide plate for a pushbutton switch device, wherein the reflectance at the illumination unit far from the light source is higher than the reflectance at the illumination unit near the light source. In claim 1 or 2,
The illumination unit is a light guide plate for a pushbutton switch device having a plurality of recesses or projections formed on the surface of the transparent rubber molding. In claim 2,
The illumination part has a plurality of recesses formed on the surface of the transparent rubber molded body,
A light guide plate for a pushbutton switch device in which the number of the recesses in the illumination unit far from the light source is formed larger than the number of the recesses in the illumination unit close to the light source. In claim 2,
The illumination part has a plurality of recesses formed on the surface of the transparent rubber molded body,
A light guide plate for a pushbutton switch device, wherein a total area of the recesses in the illumination part far from the light source is formed larger than a total area of the recesses in the illumination part near the light source. In claim 4 or 5,
The recess is a light guide plate for a push button switch device formed by laser marking. In any one of Claims 1-6,
The transparent rubber molded body is a light guide plate for a pushbutton switch device having a total light transmittance of 80% or more. In any one of Claims 1-7,
The transparent rubber molded body is a light guide plate for a pushbutton switch device having a thickness of 0.2 mm to 1 mm and a durometer A hardness of 40 degrees to 90 degrees. In any one of Claims 1-8,
The light guide plate for a pushbutton switch device, wherein the transparent rubber molded body is formed of at least one transparent rubber selected from silicone rubber, urethane rubber, and urethane elastomer. In any one of Claims 1-9,
A light guide plate for a push button switch device used in a mobile phone. A plurality of push buttons, a switch corresponding to the push button, a light guide plate provided between the push button and the switch for guiding light emitted from the light source, and a light source provided at a side end of the light guide plate And having
The light guide plate is formed of a thin transparent rubber molded body, and is a push button switch device in which an illuminating unit that illuminates the push button is formed between the push button and the switch immediately below the push button. In claim 11,
The push button switch device, wherein the push button includes a phosphor excited by light of the light source. In claim 11 or 12,
The pushbutton switch device, wherein the pushbutton has a light guide portion in which a concave portion or a convex portion is formed on a surface in contact with the illumination portion. In any one of Claims 11-13,
A push button switch device used in a mobile phone.