JPH02235387A - Flexible circuit board - Google Patents

Abstract

PURPOSE:To deform electric circuits freely by making an insulating fibrous sheet act as a board and stitching together a conductive member and pasting its member or taking similar measures. CONSTITUTION:The fibrous sheet of a board mainframe 10 is obtained by manufacturing a member which is superior in insulating properties and has a certain strength in a sheet like shape. For example, in the case of receiving circuits of an AM radio, a conductive layer 11 is formed by coating the upper part of the mainframe 10 with a silver paste and the like and dielectric layers 11b and 11c are laminated by coating these layers with dielectric coating materials and then a protecting layer 11d is formed as a capacitor by coating the whole with silicon resin and the like. As to an antenna, coil, wiring, and so on, a conductive wire part 12a is formed by coating the upper part of the mainframe 10 similarly with conductive materials. Then a shield part 12b is formed by coating its part with an insulating coating material so that the conductive wire part is covered. An electric circuit that is deformed freely is thus obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field 1] The present invention relates to a flexible circuit board on which an electric circuit is formed using a fibrous sheet such as cloth, artificial leather, or nonwoven fabric as a substrate. [Background of the Invention l To form an electric circuit to perform a specific electrical function, a flat circuit board made of synthetic resin or ceramic with good insulation is generally used, and printing is performed on this board. In addition to forming wiring patterns using means such as , etching, etc., circuit elements such as resistors, capacitors, coils, etc., IC circuit parts, volume . Circuit components such as switches, batteries, and other circuit components are fixed by means such as soldering or adhesion using conductive adhesive. In particular, in order to stably fix circuit components, etc., through holes are drilled in the circuit board, and terminals and lead wires of the circuit components are inserted into the through holes before soldering. By the way, since it is necessary to form a wiring pattern on the surface of the above-mentioned circuit board, it must be extremely accurately flat, and for example, it is difficult to form a board with a curved shape or a stepped shape. is extremely difficult. Furthermore, since this circuit board is made of a hard material, it cannot be bent or folded. Therefore, electric circuits that can only take a planar shape and have a circuit board that cannot be deformed have limitations when they are incorporated into electrical equipment or used as devices that perform a specified function. In order to increase the degree of freedom in installing electrical circuits and to make the circuit board more versatile, it is necessary to make the circuit board flexible. There are also known devices in which flexible films or sheets made of synthetic resin or the like are used as substrates for electrical circuits. If the board is formed in this way, it will be possible to incorporate electrical equipment etc. in a bent or curved state, allowing for a certain degree of freedom when attaching electrical circuits to electrical equipment. You will be able to do that. However, the above-mentioned resin films and sheets not only have a limited flexibility, but also a limited elastic recovery power, and if they are bent beyond a certain point, they may suffer permanent deformation or breakage. In addition, when holes are made in the board in order to securely mount the circuit components that make up the electric circuit, this part becomes fragile and the board can be easily damaged even if a small amount of force is applied. There are also problems such as having to store it away, making it troublesome to handle it. OBJECTS OF THE INVENTION The present invention has been made in view of the above points, and its purpose is to provide a flexible circuit board that is extremely flexible and has excellent strength. [Means for achieving the object] In order to achieve the above-mentioned object, the present invention has a substrate body made of an electrically insulating fibrous sheet such as cloth or artificial leather, and the substrate body has a , coated with conductive material. The feature is that wiring is formed by sewing and pasting, and circuit components constituting an electric circuit can be attached to the board body. [Effect 1] As described above, since a fibrous sheet is used as the substrate body, an electric circuit is formed by wiring the substrate body and attaching various circuit components. For example, if it is attached to a movable part, it will follow the movement of the object to which it is attached and will be able to deform freely.
The fibrous sheet has extremely good elastic recovery power, so even if a large bending force is applied to the board body or it is folded, it will not undergo permanent deformation and will immediately return to its original state. Also, there is no risk of tearing or damage. Furthermore, since the fibrous sheet that makes up the board body can take any shape, even when this electrical circuit is installed on a fixed part, it can be used after wiring and various circuit components are installed on the circuit board. By deforming this circuit board into a shape of a given ψ and hardening it with resin, etc., it can be transformed into a cylindrical or curved shape. L-shaped. It becomes possible to fix it in a desired shape such as a wave shape or a step shape. For example, clothing, bedding, ornaments, etc. If an electrical circuit is formed on other fabrics, the electrical circuit itself will function as a certain electrically functional device, and the circuit pattern can also be used as a decoration. In addition, wiring installed on the board body can now be easily formed by applying conductive paste, sewing conductive wires, or pasting conductive tape, and moreover, it has become possible to easily form wiring on the board body by attaching electrical circuit components. This makes it extremely easy to form electrical circuits, as it can be done by directly inserting the lead part of this element into the board body without creating troublesome through-holes or the like in the board body. For example, it becomes possible to easily and inexpensively form a prototype circuit. [Embodiment 1] Hereinafter, embodiments of the present invention will be described in detail based on the drawings. First, FIG. 1 shows an AM radio receiving circuit formed on a fibrous sheet, and FIG. 2 shows an equivalent circuit of this radio. In the figure, l is the antenna section, and 2.3 is the capacitor.
4 indicates a coil, and the radio waves received by the antenna 1 are amplified by a high frequency amplification section 5 and a low frequency amplification section 6,
The audio signal is transmitted to the earphone 7 so that audio at a predetermined frequency can be received. A button battery 8 is also attached to supply power to this radio circuit. Moreover, predetermined wiring 9 including a ground line is provided between each of these circuit components 1 to 8. Here, the receiving circuit of the AM radio as an electric circuit is constructed as described above, and the fibrous sheet as the board main body IO to which this electric circuit is attached may be made of, for example, cloth, nonwoven fabric,
A sheet made of a material that has good insulation properties and a certain degree of strength, such as artificial leather.
The drawings illustrate an example in which a cloth shirt is used as the substrate body. ). Next, each of the circuit components 1 to 8 and the wiring 9 described above have the configuration shown below. First, among the circuit components 1 to 8, the capacitor 2.3 is formed by printing means, as shown in FIG. That is, a conductive layer 11a is formed by applying a conductive paint such as silver paste on the substrate main body lO, and then this conductive layer 11a is formed! A dielectric layer 1lb having a predetermined thickness is laminated by applying a dielectric paint made of titanium oxide paste or the like on the telephone layer 1lb7, and a conductive layer 11c? : They are laminated and the entire layer is used to form a protective layer lid made of silicone resin or the like. Further, it is formed by drawing out terminals from one conductive layer 11a and the other conductive layer 11c, respectively, and connecting these terminals to the wiring 9. Next, the antenna l. As shown in FIG. 4, the coil 4 and the wiring 9 are formed by coating a conductive paint on the substrate body 10 to form a conductive wire portion +2a, and a shield portion made of insulating paint to cover the conductive wire portion 12a. 12b. Also, as shown in Figure 5, the core wire is inserted into the resin tube. This cable 13 (or the metal wire itself) is
The antenna 1, the coil 4, and the wiring 9 can also be formed by sewing 3 using the thread 14. Furthermore, as shown in FIG.
These can also be formed by adhering the insulating tape 16 to the substrate body IO or heat-sealing it to the substrate body IO. In addition, as shown as part A, part B, and part C in Fig. 1,
In the portion where the wires 9 intersect, an insulating member may be interposed between the wires that intersect vertically. On the other hand, both the high-frequency amplification section 5 and the low-frequency amplification section 6 are constructed of IC circuit components, and the fixation of these IC circuit components to the substrate body 10 is as shown in FIG. 7(a). First, the main body part 17a of the IC circuit component 17 is fixed onto the board main body 1O by means of adhesive or the like, and the lead parts 17b are extended along the surface of the board main body 1O. In this state, a conductive adhesive l8 is applied between the tip of the lead portion 17b and the end of the wiring 9, as shown in FIG.
As shown in b), terminal connections can be formed. Alternatively, as shown in FIG. 8, a terminal connection part 19 is provided at the end of the wiring 9, the leat part 17b of the IC circuit component 17 is inserted into this terminal connection part 19, and a conductive adhesive is applied around the periphery. Also by filling 20, IC circuit components 17
You will be able to connect the and wiring 9. Furthermore, the button battery 8 is removable from the main board lO, and for this reason, as shown in FIG. be done. That is, the terminals 8a and 8b of the button battery 8 are connected to hooks 21a and 2lb, respectively.
The female side member is connected to the wiring 9. Therefore, by engaging and detaching the hooks 21a and 2lb, the button battery 8 can be attached to and detached from the main board lO. Also, when both of these hooks 21a and 2lb are engaged, the radio will be turned ON and when at least one of them is engaged, it will be turned OFF, so these hooks 2]a and 2lb are used to turn the radio ON, There is also a switch for OFF operation. Further, the earphone 7 is also connected to the wiring 9 in the same manner as the button battery 8. The electric circuit constructed as described above is constructed by using it as a movable object, since the fibrous sheet constituting the substrate body 10, which is the base material, is extremely flexible and has the property of being freely deformable. When worn, when the movable object is moved, this electric circuit can be freely deformed to follow the movement of the movable object. Moreover,
Due to its nature, it has extremely good elastic recovery power, so even if it is bent or folded, it will smoothly return to its original state, and will not be permanently deformed, causing creases or tears. However, compared to flexible circuit boards such as resin films, its strength is significantly better. Therefore, by using cloth as the substrate main body IO, it is possible to produce cloth products such as clothing, bedding, curtains, etc. This makes it possible to directly form a device having an electric circuit that constitutes a predetermined electric device such as a radio on a wall hanging or other decorative item. As a result, not only can the electric circuit itself perform its original electrical function as described above, but it has also become possible to use this circuit pattern as a decoration, giving it a unique design. I can do it. In addition, when using it as a decoration in this way, if it is necessary to protect the electrical circuit from moisture and other moisture, the parts that make up the circuit should be coated with a waterproof coating using silicone resin, etc. as necessary. Just do it. On the other hand, instead of using the above-mentioned flexible circuit board in a state where the original flexibility of the board main body IO is exhibited as it is, after providing wiring and circuit components, for example, as shown in FIG. 10, It can also be deformed into a certain shape and fixed by hardening it with resin or the like. In this way, the electric circuit can be shaped into, for example, a cylindrical shape, a curved shape, an L-shape, a wave shape, etc. as shown in FIG. It can be formed into a staircase shape or other desired shape. In addition to cloth, non-woven fabric, artificial leather, etc. can also be used as the fibrous sheet forming the substrate body. Here, since non-woven fabrics and artificial leather are non-stretchable materials, they can be used as the main body of the board, and a metal wire can be routed around the main body of the board, and this metal wire can be sewn or an adhesive tape with insulating properties can be pasted. At the same time, the electrical parts constituting the electrical circuit are inserted into the board body with their lead parts, and the electrical circuit is constructed by connecting the lead parts and the wiring with a conductive adhesive. can do. In this way, it can be used, for example, as a prototype circuit design, or as an electrical circuit kit for assembly. In particular, if you use something like artificial leather that can be made thick and have a relatively smooth surface, you can route wiring using a conductive paste dispenser, and If flame-retardant fibers are used, circuit components and electrical components can be connected to wiring by means such as soldering. [Effects of the Invention] As explained above, the present invention forms a substrate body made of electrically insulating fibrous sheet such as cloth or artificial leather, and wires are routed around the substrate body. By making it possible to attach various parts constituting the electric circuit to this board body, it is possible to make the electric circuit board extremely flexible and have sufficient strength. It has become possible to make the circuit into any shape and attach it to various devices, and it is also possible to make the circuit into a deformable electric circuit.

[Brief explanation of the drawing]

Fig. 1 is an explanatory diagram showing the configuration of an AM radio as an electric circuit having a flexible circuit board according to an embodiment of the present invention, Fig. 2 is an equivalent circuit diagram of the radio in Fig. 1, and Fig. 3 is a cross section of a capacitor. 4, 5, and 6 are cross-sectional views of the wiring mounting portions using different methods, FIGS. 7(a) and (b) are configuration explanatory diagrams of the IC circuit component mounting portions, and FIG. 8 is an explanatory diagram of the configuration of a mounting part for IC circuit components according to another method,
FIG. 9 is an explanatory diagram of the structure of the button battery mounting section, and FIG. 10 is an external view showing the molded state of the electric circuit. l: antenna part, 2.3: capacitor, 4: coil, 5
: High frequency amplification section, 6: Low frequency amplification section, 7: Earphone,
8: Button battery, 9: Wiring, 10: Board body. Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] It has a board main body made of an electrically insulating fibrous sheet such as cloth or artificial leather, and wiring is formed by applying, sewing, or pasting a conductive member on the board main body. A flexible circuit board characterized in that it has a structure that allows mounting of circuit components constituting an electric circuit.