JPH0431631Y2 - - Google Patents

Description

[Detailed explanation of the idea] [Technical field of invention] The present invention relates to small electronic devices.

[Prior art]

Small electronic devices, such as small electronic calculators and electronic game devices, have become much smaller, and it is common practice to place them on top of documents on a desk and operate them while looking at the contents of the documents. There is.

However, in conventional small-sized electronic devices of this type, the entire device is opaque, and the contents of the document on which the device is mounted are obscured. For this reason, when performing calculations, games, etc., the device must be operated at a position shifted from the calculations and instructions written on the document. Therefore, while performing calculations, games, etc., when the user reaches a position where the calculation or explanatory part is blocked by the device, the device must be operated again by shifting its position to another part.

[Problems with conventional technology]

In this way, with conventional small electronic devices, the part of the device that is placed on it is shielded, and when it is placed on top of a document and used for calculations, games, etc., the surface area that hides the document is large. , The distance between the calculation part and the explanation part and the key input part of the device is large, reducing the efficiency of operation.The calculation part and the explanation part are mostly hidden and the whole document cannot be seen, so functions such as memory and rounding etc. It is difficult to use the device properly, and parts written at the edge of the document require the device to be held in the hand or moved from a considerable distance.

[Purpose of invention]

This idea was made in view of the above situation.
To provide a compact electronic device that can be operated very efficiently when performing calculations, games, etc. based on the contents of documents and has a good appearance by reducing the area shielded by the device. With the goal.

[Summary of the idea]

The small electronic device of the present invention has a display section and an integrated circuit chip, and has at least a key input section and a case holding the key input section made of a light-transmitting member, so that the upper surface of the key input section is The back side of the case can be seen through.

〔Example〕

Hereinafter, the present invention will be explained using a small electronic calculator as an embodiment with reference to the drawings.

FIG. 1 shows an external perspective view of a small electronic calculator 1. As shown in FIG.

This small electronic calculator 1 is 110 (length) x 70
It is formed into a thin rectangular parallelepiped shape of approximately (width) x 5 (thickness) mm, and a display body 2 such as a liquid crystal display panel and a solar battery 3 for power supply are arranged horizontally along the longitudinal direction on the upper side. In addition, the top surface is covered with a transparent decorative plate 4. The back surface of the decorative board 4 is decorated with decorative printing except for the display window section 4a and the battery window section 4b. A key input section 5 is formed below the display body 2 and the solar cell 3. As will be described later, in the key input section 5, a film member for key operation, a key pattern, etc. are formed of a translucent material, and only the key display 5a corresponding to each input key is printed with colored paint. ing. In this small electronic calculator 1, a case 6 that houses and holds the display 2, the solar cell 3, and the key input section 5 is also formed of a translucent material. Therefore, the back side of the case 6 can be seen through from the top side of the key input section 5, and the figures and characters below the calculator 1 can be read through the key input section 5.

FIG. 2 is an exploded perspective view of FIG. 1, and the structure of this small electronic calculator 1 will be explained in detail below.
The translucent case 6 has a storage section 6a that stores the key input section 5, the display 2, and the solar cell 3. The key input section 5 is fixed to the storage section 6a of the case 6 via a frame-shaped metal foil 7 made of, for example, aluminum and having approximately the same external shape as the key input section 5. That is, the metal foil 7 is coated with adhesive on both sides, and is adhered to the key input section 5 and then to the storage section 6a. Also, at this time, an AN film 8 treated with AN (Anti-Newton Ring) is inserted into the through hole 7a formed in the metal foil 7 and interposed between the case 6 and the key input section 5. be. In this case, if the entire surface of the key input section 5 is adhered to the storage section 6a of the case 6 using a transparent adhesive or the like, there will be problems such as a decrease in transparency and the generation of air bubbles between the key input section 5 and the case 6. . This generation of air bubbles is caused by the fact that the entire surface of the key input section 5 is not adhered to the case 6 with the same adhesive force, and there are small parts with weak adhesive strength scattered about, which causes these parts to peel off and become exposed to air in the atmosphere. However,
This results in parts having different degrees of transparency, resulting in an unsightly appearance and poor contact during key input. For this reason, it is desirable that only the peripheral portion of the key input section 5 be bonded to the case 6. However, in this case, two other problems occur. Problem 1
The first problem is that Newton's ring occurs because the key input section 5 and the case 6 are not bonded to each other and there is an extremely small gap. AN film 8 was used as a countermeasure against this problem, and is a polyester film base coated with acrylic resin on both sides to form fine irregularities on its surface. The other problem is caused by the effect of the coefficient of thermal expansion between the key input part 5 and the case 6. If only the peripheral edge of the key input part 5 is glued to the case 6, the key The input part 5 has a curved shape in which the central part bulges outward. The metal foil 7 is provided to prevent this. The reason for this is not clear, but as will be described later, it is possible that the key input section 5 made of polyester film is bonded with aluminum metal foil, which has a coefficient of thermal expansion relatively close to that of the polyester film and has high rigidity. Slippage against the adhesive force occurs between the input section 5 and the aluminum metal foil and between the aluminum metal foil and the case 6, and the difference in thermal expansion between the input section 5 and the case 6 may be absorbed by this slippage. It is assumed that there is no such thing. Incidentally, the adhesive used in this case is an acrylic resin type that cures at room temperature.

Electronic components such as the key input section 5, the display body 2, and the solar cell 3 are integrated into an electronic component structure 10, which will be explained with reference to the exploded perspective view of FIG. 3.

The key input section 5 is composed of a movable contact film 11 made of polyester or the like, a fixed contact film 12, and an adhesive tape 13 with double-sided adhesive. The above-mentioned key indications 5a... are printed on the outer surface of the movable contact film 11, and key contacts made of transparent indium oxide (ITO) or the like are formed by vapor deposition on the inner surfaces of the movable contact film 11 and the fixed contact film 12. In this case, the transmittance of the transparent polyester film is 95%.
When indium oxide is vapor-deposited on this, the transmittance of that area drops to about 80%, so in normal pattern wiring, only the vapor-deposited indium oxide area becomes dark, which is undesirable in appearance.
In this embodiment, as shown in FIG. 1, the dividing lines of the key wiring pattern are made continuous or overlap on the same line when the movable contact film and the fixed contact film are laminated, so that the dividing lines of this pattern appear as dividing lines of each key.

This will be explained with reference to FIG. FIG. 4A is a front view of the movable contact film 11 viewed from the front side. On the inner surface of the movable contact film 5, transparent movable contact patterns 11a ₁ to 11a ₇ each having a plurality of key markings 5a as one pattern are formed. Each movable contact pattern is connected to the routing patterns 11b ₁ to 11b ₇ made of silver paste, and is arranged around one end edge 11c by routing the peripheral edge. In this case, the movable contact patterns 1a ₇ and 11a ₇ ',
It is also possible to connect a plurality of isolated patterns to one routing pattern _11b7 . One end edge 11c of each of the routing patterns 11b ₁ to 11b ₇ is printed with carbon ink to form connection terminals 11d ₁ to 11d ₇ . Further, on the inner surface of the movable contact film 7, a movable contact pattern 11a ₁
In addition to 11a7 to _11a7 , dummy patterns _11e1 to _11e3 outside the key input area and dummy patterns _11e4 and _11e5 between the movable contact patterns are formed. These dummy patterns 11e ₁ to 11e ₅ are formed of the same transparent conductive material as the movable contact patterns 11a ₁ to 11a ₇ , and the entire surface of the movable contact film 5 is made to have the same brightness as the movable contact pattern portion to identify the pattern. The purpose is to make it more difficult.

Moreover, FIG. 4B is a front view of the fixed contact film 12 seen from the inner surface side. On the inner surface of the fixed contact film 12, fixed contact patterns 12a 1 to ₁ made of a transparent conductive material are arranged opposite to the movable contact patterns 11a ₁ to 11a ₇ of the movable contact film 11.
2a ₇ is formed. Movable contact pattern 11a ₁ ~
11a ₇ and fixed contact patterns 12a ₁ to 12a ₇
forms the key matrix corresponding to the key display 5a..., so the fixed contact pattern 1
Each of the movable contact patterns 2a ₁ to 12a ₇ is continuously formed corresponding to a different pattern of the movable contact patterns 11a ₁ to 11a ₇ . The routing patterns 12b ₁ to 12b ₇ and the connection terminals 12d ₁ to 12d ₇ arranged on one end edge 12c are connected to the movable contact film 1.
It is formed in the same way as in case 1. Here, the connection terminals 12f ₁ to 12f ₇ are connected to the movable contact film 11, respectively.
are arranged corresponding to the connection terminals 11d ₁ to 11d ₇ . In addition, dot-shaped insulating spacers 12g are printed on the inner surface of the fixed contact film 12 in order to separate the movable contact patterns 11a ₁ to 11a ₇ and the fixed contact patterns 12a ₁ to 12a ₇ as shown in FIG. At the same time, routing patterns 12b ₁ to 12b ₇
An insulating layer 12h is printed to prevent silver migration.

That is, in order to form the fixed contact film 12, indium oxide is deposited on the entire inner surface, and then
This vapor deposited layer is subjected to a predetermined masking and etching process to form fixed contact patterns 12a ₁ to 12.
Form a ₇ . Next, the routing patterns 12b ₁ to 12b ₇ are printed using silver paste, and the connecting terminal 1 is printed using carbon ink at one end edge 12c.
2d ₁ to 12d ₇ and 12f ₁ to 12f ₇ are printed, and then an insulating layer 12h and an insulating spacer 12g...
...is formed by printing. The movable contact film 11 is also formed by the same procedure except for the insulating spacer 12g.

The movable contact film 11 and the fixed contact film 12 are attached to the anisotropically conductive adhesive tape 14 on the connection terminals 11d ₁ to 11d ₇ of the movable contact film 11.
are attached and then fixed to each other with adhesive tape 13. When the anisotropic conductive adhesive tape 14 is crimped, only the _portions corresponding to the connection terminals are electrically conductive in the _thickness direction. The connection terminals 12f ₁ to 12f ₇ are electrically connected to each other. In this case, one end edge 1 of the fixed contact film 12
_2c extends longer than one end edge 11c of the movable contact film 11, and the conductive parts 15a 1 to 15a 14 are heat-sealed to the connecting terminals 12d ₁ to 12d ₇ and 12f ₁ to 12f ₇ of this extended portion _. connect them facing each other.

The display body 2 and the solar cell 3 are arranged on the side of the key input section 5 configured in this way. A wiring board 16 on which predetermined wiring is provided and an integrated circuit chip 17 and chip components 18 are attached is arranged on the lower surface of the solar cell 3. Heat seal 1 above
The other end of 5 is connected to the wiring board 16, and although not shown, the connection terminals 11d 1 to 11d 7 of the movable contact film 11 are connected to the key output terminals of the integrated circuit chip 17, and the connection terminals 11d ₁ to 11d ₇ of the fixed contact film 12 are connected to the key output terminals of the integrated circuit chip 17. The connection terminals 12d ₁ to 12d ₇ are connected to key input terminals of the integrated circuit chip 17. Further, each electrode (not shown) of the display body 2 is connected to the wiring board 16 by a heat seal 19. In the figure, 20 is a holding sheet made of hard vinyl chloride resin, in which a window 20a of the display body 2 and a window 20b of the solar cell 3 are perforated, and an adhesive is applied to the back surface. , the peripheral edges of the display body 2 and the solar cell 3 are bonded to the back surface facing each of the window portions 20a and 20b.

Therefore, the key input section 5, the display body 2, the solar cell 3
A wiring board 16 on which electronic components such as an integrated circuit chip 17 are attached are integrally formed as an electronic component structure 10.

In addition, 21 in the figure is a decorative plate adhesive sheet for bonding the decorative plate 4 to the stepped portion 6b of the case 6 and the holding sheet 20, and the portions corresponding to the display body 2 and the solar cell 3 are provided with through holes 21a and 21b. There is.
Further, 22 is a blinding plate attached to the back side of the case 6 corresponding to the display body 2 and the solar cell 3, and prevents the wiring board 16 and the like from being seen from the back side.

Next, the case of assembling this small electronic calculator 1 will be explained.

The electronic component structure 10 is formed in advance according to the above-described procedure. A metal foil 7 is adhered to the back surface of the fixed contact film 12 of this electronic component structure 10, and an AN
The film 8 is fitted into the through hole 7a of the metal foil 7, and the metal foil 7 is adhered to the groove 6c of the case 6. At this time, the electronic component assembly 10 is housed in the housing section 6a of the case 6, and the wiring board 16 with the integrated circuit chip 17 and the chip component 18 attached thereto is mounted in the recess 6d. Next, one side of the decorative board adhesive sheet 21 is adhered to the decorative board 4, and the other side is adhered to the holding sheet 20 and the stepped portion 6b of the case 6. The blind plate 22 is then attached to the case 6, but it may be attached to the case 6 in advance as a subassembly.

In the above description, the metal foil 7 can have an antistatic function. That is, in FIG. 3, if the thickness of the movable contact film 11 and the fixed contact film 12 is 100 μm each, and the thickness of the adhesive tape 13 is 80 μm, the thickness of the entire key input section is
It becomes 280μm. Since the metal foil 7 is arranged on this lower surface, the contact pattern 1 formed on each inner surface of the movable contact film 11 and the fixed contact film 12
1a ₁ to 11a ₇ , 12a ₁ to 11a ₇ and routing patterns 11b ₁ to 11b ₇ , 12b ₁ to 12b ₇ from the periphery at a distance longer than the total thickness of 280 μm of the key input section 5, preferably 1 mm or more inward. By providing this, external static electricity released from the gap between the case 6 and the key input section 5 can be absorbed by the metal foil 7.

Further, the holding sheet 20 forms a gap between the back surface of the decorative body 4 and the display body 2 and the solar cell 3, and thus has a function of preventing Newton's ring from occurring.

The small electronic calculator 1 configured as described above is
The key input section consisting of a pair of contact films and contact patterns provided on these films is entirely made of a translucent material except for the key display, and the case member holding the key input section is also translucent. Because it is made of a flexible material, it is possible to see through the back of the case from the top side of the key input part, and the contents of the document can be read and operated through the device body while the device body is placed on the document. can do.

In the above description, the key input unit 5 includes a movable contact film 11 and a fixed contact film 12.
However, it is also possible to provide the fixed contact pattern directly on the upper surface of the case 6, and in this case, the fixed contact film 12 can be saved. Furthermore, although the case has been described in which the AN film 8 is interposed between the key input section 5 and the case 6 as a countermeasure against Newton's ring, fine irregularities may be provided directly on the lower surface of the fixed contact film 12 and the upper surface of the case 6. It's okay.

Further, the key input unit introduces a key signal by bringing the movable contact pattern into contact with the fixed contact pattern.
Although it is a contact type, a split touch electrode and wiring pattern are formed on the top surface of the case 6 using a transparent conductive material, and the resistance and capacitance values of the fingertip are detected by touching the touch electrode with the fingertip. It can also be of a non-contact type that introduces a key signal.
For non-contact types, when the touch electrode and wiring pattern are placed directly on the top of the case, an insulating protective layer is placed over the wiring pattern to prevent static electricity and physically protect the pattern (to prevent scratches and water leakage). It is desirable to provide one. Further, in this case, the touch electrode and the wiring pattern can be formed using a contact film, and the pattern surface is fixed to the case as the inner surface facing the case surface, so that the contact film also serves as a protective layer.

In addition, the present invention can be used with various modifications in detail, and can also be applied to various electronic devices other than small electronic calculators.

[Effect of idea]

As is clear from the above explanation, the small electronic device of the present invention allows the back side of the case to be seen through from the top side of the key input section, so even if it is placed on a document, it will not be blocked by the device. The area to be read is smaller, and the contents of the document can be read from the key input area to perform calculations and games, so the distance between the reading position and the device is smaller and the effort of moving the device is reduced. This has the effect of allowing operations to be performed very efficiently. Further, since the electrode pattern of the key input section is formed so that the dividing line serves as the partition line of the key, it is possible to prevent poor appearance caused by differences in the degree of transparency.

[Brief explanation of the drawing]

The drawings all relate to a small electronic calculator as an embodiment of the small electronic device of the present invention, and FIG. 1 is an overall external perspective view of the computer, FIG. 2 is an overall exploded perspective view,
FIG. 3 is an exploded perspective view of the electronic component structure, FIG. 4 is a diagram showing the pattern of the contact film constituting the key input section, and FIG. 4A is a front view of the movable contact film from the surface side. FIG. 4B is a front view of the inner surface of the fixed contact film. 1...Small electronic calculator, 2...Display body, 3...
...Solar battery, 5...Key input section, 6...Case,
7...Metal foil, 8...AN film, 10...Electronic component structure, 11...Movable contact film, 12
...Fixed contact film, 17...Integrated circuit chip.

Claims (1)

[Claims for Utility Model Registration] A small electronic device that has a translucent key input section and allows the back side of the main body to be seen from the top surface of the key input section, the key input section having a first It consists of a transparent movable contact film on which a key electrode part is formed, and a transparent fixed contact film on which a second key electrode part is formed, which is spaced apart from and opposite to the first key electrode part. The division pattern of the first and second electrode parts is
A small electronic device characterized in that a dividing line is formed to serve as a dividing line for a key.