HAND-MADE CIRCUIT BOARD
A hand-made circuit board includes a substrate and a medium layer disposed on a surface of the substrate to form a pattern. The medium layer has a non-conductive zone configured with a plurality of electrical blocks. The electrical blocks are discontinuously distributed in the non-conductive zone, so that the electrical blocks on at least one cross-section of the non-conductive zone are not electrically connected. In addition, the medium layer has a conductive zone configured with a plurality of electrical blocks. The electrical blocks are continuously distributed in the conductive zone, so that the electrical blocks on at least one cross-section of the conductive zone are electrically connected.
This disclosure relates to a hand-made circuit board containing conductive zone and/or non-conductive zone.
Description of Related ArtThe circuit board has a main function of providing the electrical connections for the components disposed on the circuit board. For different requirements, the circuit board can be a product with the light, thin, compact, soft, and/or hard properties. Generally, the circuit board can be a single-layer board, a double-layer board, or a multilayer board. In practice, the printed circuit boards have been widely used in various electrical products and daily necessities, such as computers, computer peripheral apparatuses, communication devices, or the likes.
However, the manufacturing of the printed circuit board includes a plurality of steps, such as cutting a substrate, preparing a circuit layout, transfer printing the circuit layout to the substrate by a photoresist or printing method, exposure, developing and etching. This manufacturing needs many equipment and the acidic or alkali toxic solution (e.g. the developing solution or the etching solution), so the manufacturing of circuit boards is not easy. Besides, according to the above reasons, it is improper to manufacture the printed circuit boards under a normal environment. In general, the professional operators are needed to operate the equipment for manufacturing the printed circuit boards in the factory or lab. In other words, the nonprofessional users cannot easily perform the above steps for manufacturing the circuit boards. In particular, for the education purpose, the students who have never touched the circuits (e.g. young users) do not have the ability to participate the manufacturing of the circuit boards.
Therefore, it is desired to provide a circuit board for the nonprofessional users or young users. The users who have never touched circuits or circuit boards can still set the desired circuit layout by themselves following the guidance of the medium layer of the circuit board. This configuration can make the manufacturing of circuit boards easier, so that the general users can also create a circuit board just like a professional operator. Thus, the manufacturing of circuit boards becomes more flexible. Besides, the users can easily have fun in the preparation of circuit layout and circuit boards. Moreover, the users can put the manufactured circuit board on a construction assembly (e.g. a stereo tree house) for providing the sound, light and magnet functions. It can be applied to the education field and provide the joy of assembling and learning.
SUMMARYIn view of the foregoing, an objective of this disclosure is to provide a hand-made circuit board, which has a medium layer for guiding the users to create the desired circuit layout, conducting the circuits, and making the desired circuit board by themselves. This configuration can allow the users to manufacturing the circuit board easily just like a professional operator. Thus, the manufacturing of circuit boards becomes more flexible, and the users can easily have fun in the preparation of circuit layout and circuit boards.
In order to achieve the above objective, the present disclosure provides a hand-made circuit board, which includes a substrate and a medium layer disposed on a surface of the substrate to form a pattern. The medium layer has a non-conductive zone configured with a plurality of electrical blocks. The electrical blocks are discontinuously distributed in the non-conductive zone, so that the electrical blocks on at least one cross-section of the non-conductive zone are not electrically connected.
In one embodiment, the medium layer further has a conductive zone configured with a plurality of electrical blocks, and the electrical blocks are continuously distributed in the conductive zone, so that the electrical blocks on at least one cross-section of the conductive zone are electrically connected.
In one embodiment, the electrical blocks are conductive blocks, conductive wires, conductive sheets, conductive inks, conductive tapes, semi-conductive materials, or any combination thereof.
In one embodiment, the non-conductive zone or the conductive zone is a resistance-adjustable zone.
In one embodiment, the substrate is a wood substrate, a bamboo substrate, a paper substrate, a cotton substrate, a high-density fiber substrate, a resin substrate, or any combination thereof.
In one embodiment, the substrate comprises a coating layer disposed on the surface of the substrate, and the medium layer is disposed on the coating layer.
In one embodiment, the hand-made circuit board further includes at least an electro-induced change element electrically connected to the medium layer.
In one embodiment, the electro-induced change element is a light-emitting unit, a heating unit, a sound unit, an electrochromic unit, a magnetic unit, or any combination thereof.
In one embodiment, the electro-induced change element is a light-emitting unit, and the light-emitting unit is made by hands.
In one embodiment, the light-emitting unit includes an electrical substrate, a light-emitting diode, and a flexible patch. The electrical substrate is electrically connected to the medium layer. The light-emitting diode is electrically connected to the electrical substrate. The flexible patch flatly attaches to or surrounds the electrical substrate and the light-emitting diode, so that the electrical substrate and the light-emitting diode are electrically and firmly connected to each other.
In one embodiment, the electrical block includes graphite, graphene, silver, copper, gold, aluminum, tungsten, alloys thereof, or conductive metal oxides thereof.
In one embodiment, the hand-made circuit board further includes a battery and a switch unit. The battery is disposed on the surface of the substrate, and one end of the battery is electrically connected to the medium layer. The switch unit is adjustably and electrically connected between the battery and the medium layer.
To achieve the above objective, the disclosure also provides a hand-made circuit board, which includes a substrate and a medium layer disposed on a surface of the substrate to form a pattern. The medium layer has a conductive zone configured with a plurality of electrical blocks. The electrical blocks are continuously distributed in the conductive zone, so that the electrical blocks on at least one cross-section of the conductive zone are electrically connected.
In one embodiment, the medium layer further has a non-conductive zone configured with a plurality of electrical blocks, and the electrical blocks are discontinuously distributed in the non-conductive zone, so that the electrical blocks on at least one cross-section of the non-conductive zone are not electrically connected.
In one embodiment, the electrical blocks are conductive blocks, conductive wires, conductive sheets, conductive inks, conductive tapes, semi-conductive materials, or any combination thereof.
In one embodiment, the non-conductive zone or the conductive zone is a resistance-adjustable zone.
In one embodiment, the substrate is a wood substrate, a bamboo substrate, a paper substrate, a cotton substrate, a high-density fiber substrate, a resin substrate, or any combination thereof.
In one embodiment, the substrate comprises a coating layer disposed on the surface of the substrate, and the medium layer is disposed on the coating layer.
In one embodiment, the hand-made circuit board further includes at least an electro-induced change element electrically connected to the medium layer.
In one embodiment, the electro-induced change element is a light-emitting unit, a heating unit, a sound unit, an electrochromic unit, a magnetic unit, or any combination thereof.
In one embodiment, the electro-induced change element is a light-emitting unit, and the light-emitting unit is made by hands.
In one embodiment, the light-emitting unit includes an electrical substrate, a light-emitting diode, and a flexible patch. The electrical substrate is electrically connected to the medium layer. The light-emitting diode is electrically connected to the electrical substrate. The flexible patch flatly attaches to or surrounds the electrical substrate and the light-emitting diode, so that the electrical substrate and the light-emitting diode are electrically and firmly connected to each other.
In one embodiment, the electrical block includes graphite, graphene, silver, copper, gold, aluminum, tungsten, alloys thereof, or conductive metal oxides thereof.
In one embodiment, the hand-made circuit board further includes a battery and a switch unit. The battery is disposed on the surface of the substrate, and one end of the battery is electrically connected to the medium layer. The switch unit is adjustably and electrically connected between the battery and the medium layer.
As mentioned above, the present disclosure provides a hand-made circuit board, which includes a substrate and a medium layer disposed on a surface of the substrate to form a pattern. The medium layer has a non-conductive zone configured with a plurality of electrical blocks. The electrical blocks are discontinuously distributed in the non-conductive zone, so that the electrical blocks on at least one cross-section of the non-conductive zone are not electrically connected. Moreover, the medium layer has a conductive zone configured with a plurality of electrical blocks, and the electrical blocks are continuously distributed in the conductive zone, so that the electrical blocks on at least one cross-section of the conductive zone are electrically connected. Based on the design of the medium layer, the general users can be guided to create the desired circuit layout, conducting the circuits, and making the desired circuit board by themselves. This configuration can allow the users to manufacturing the circuit board easily just like a professional operator. Thus, the manufacturing of circuit boards becomes more flexible, and the users can easily have fun in the preparation of circuit layout and circuit boards. In addition, the users can put the manufactured circuit board on a construction assembly (e.g. a stereo tree house) for providing the sound, light and magnet functions. It can be applied to the education field and provide the joy of assembling and learning.
The disclosure will become more fully understood from the detailed description and accompanying drawings, which are given for illustration only, and thus are not limitative of the present disclosure, and wherein:
3A, wherein the electrical substrate is disposed on a paper card; and
The present disclosure will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.
Referring to
In this embodiment, the substrate 11 includes a coating layer (not shown), and the coating layer is disposed on the surface of the substrate 11. The medium layer 12 is disposed on the surface of the substrate 11 (on the coating layer). In other words, the coating layer is disposed between the substrate 11 and the medium layer 12. Different the substrate of the conventional printed circuit board, the substrate 11 of the hand-made circuit board 1 can be, for example but not limited to, a wood substrate, a bamboo substrate, a paper substrate, a cotton substrate, a high-density fiber substrate, a resin substrate, or any combination thereof. Herein, the substrate 11 is an insulation substrate, which is different from the common substrate for the conventional printed circuit board including aluminum substrate, iron substrate, paper phenol copper laminated substrate, paper epoxy copper laminated substrate, glass-epoxy copper laminated substrate, glass composite copper laminated substrate, glass-epoxy substrate or glass-phenyl resin substrate.
The medium layer 12 is disposed on the surface (or the coating layer) of the substrate 11 and forms a pattern. The medium layer 12 has a non-conductive zone 121 configured with a plurality of electrical blocks P (see
In this embodiment, the coating layer of the substrate 11 is a polymer coating layer, which can provide a better surface roughness. Accordingly, in the hand-made circuit board 1, the user can easily use the conductive ink pen 4 to apply the conductive material on the medium layer 12, and the circuit characteristics of the painted circuit can be more stable. In other words, the configuration of the polymer coating layer can help the conductive material (e.g. silver paste or silver nano-particles 41) of the conductive ink pen 4 to be properly attached onto the non-conductive zone 121 of the medium layer 12. The attached conductive material will not be lost easily, so the circuit of the hand-made circuit board 1 is more stable (see
Referring to
In practice, the conductive material (e.g. conductive ink) can be applied on the substrate 11 by a printing unit or a transfer printing unit so as to form a coating layer, thereby forming the medium layer 12 having the electrical blocks P. In general, the conductive ink is a water-based or alcohol-based solution, which contains silver nano-particles, solvent (water or alcohol), surfactant, dispersion stabilizer and other additives. The conductive ink can be printed on the medium layer 12 to form any desired pattern by the digital ink printing or 3D printing method.
As shown in
As shown in
Besides, the hand-made circuit board 1 further includes at least one electro-induced change element 15, which is disposed on the substrate 11 and electrically connected to the medium layer 12. The electro-induced change element 15 can be a light-emitting unit, a heating unit, a sound unit, an electrochromic unit, a magnetic unit, or any combination thereof. For example, the electro-induced change element 15 can be an LED, a heater, a speaker or buzzer, a photochromic sheet, an electromagnet, or any combination thereof. Thus, after being switched on, the electro-induced change element 15 can enable the hand-made circuit board 1 to generate light, heat, sound, color change, or magnet. In this embodiment, the electro-induced change element 15 includes two light-emitting units (e.g. LED). Herein, the two LEDs are connected to the medium layer 12 (including two consecutive rectangles) in parallel. When the electrical blocks P have electrical conductivity after turning on the switch unit 14, the two LEDs can emit light. If the hand-made circuit board 1 is installed in another construction assembly or education material, the hand-made circuit board 1 can be used as the lighting component of the construction assembly. For example, the hand-made circuit board 1 can be used as the roof of a house model, so that the roof of the house model can emit light.
In addition, the electro-induced change element 15 can be optionally selected based on the requirement of different education purposes. For example, in other embodiments, the electro-induced change element 15 can optionally include a light-emitting unit and a sound unit (e.g. an LED and a speaker). In this case, the hand-made circuit board 1 can output light and sound after turning on the switch unit 14 to conducting the electrical blocks P. Moreover, the LEDs of different colors can be selected, so that the hand-made circuit board 1 can output the colorful light. These designs can be applied to other construction assembly or education material and increase the product satisfaction.
In the application of the hand-made circuit board 1, the medium layer 12 and the non-conductive zone 121 are functioned as the circuit layout of the hand-made circuit board 1. To be noted, the electrical blocks P in the non-conductive zone 121 are electrically connected to conduct the medium layer 12 under a special condition only. The conducting status is related to the operation of the user.
As shown in
In order to assign the medium layer 12 with electrical conductivity, a conductive layer can be provided on the non-conductive zone 121, so that the electrical blocks P in the non-conductive zone 121 can be electrically connected. Thus, the medium layer 12 can have electrical conductivity. As shown in
Thus, the user can use the conductive ink pen 4 to draw the circuit layout on the medium layer 12 according to the guidance of the medium layer 12, so that the medium layer 12 can have electrical conductivity. In addition, according to the material of the substrate 11 and the drawing speed of the user, the user can draw circuit lines with different lengths. Besides, based on the surface roughness of the substrate 11, the effective distance of the drawn circuit lines can be different. For example, if the substrate 11 has a rough surface, the lengths of the drawn circuit lines are shorter. In this embodiment, the substrate 11 of the hand-made circuit board 1 is a smooth photo paper card and has a coating layer, so lengths of the drawn circuit lines are longer. This configuration can sufficiently increase the efficiency and lifetime of the conductive ink pen 4. Moreover, on the photo paper card as the substrate 11, the drawn wrong circuit can be erased, and the electrical blocks P can have better electrical conductivity.
To be noted, as shown in
As mentioned above, the hand-made circuit board 1 of the present disclosure includes a substrate 11 and a medium layer 12 disposed on a surface of the substrate 11 to form a pattern. The medium layer 12 has a non-conductive zone 121 configured with a plurality of electrical blocks P. The electrical blocks P are discontinuously distributed in the non-conductive zone 121, so that the electrical blocks P on at least one cross-section of the non-conductive zone 121 are not electrically connected. Moreover, the medium layer 12 has a conductive zone 122 configured with a plurality of electrical blocks P, and the electrical blocks P are continuously distributed in the conductive zone 122, so that the electrical blocks P on at least one cross-section of the conductive zone 122 are electrically connected. In addition, the coating layer of the substrate 11 has good surface roughness, so that the silver nano-particles 41 of the conductive ink pen 4 can be easily disposed on the medium layer 12, and the drawn circuit pattern and the entire circuit can be more stable. Accordingly, the general users can following the guidance of the medium layer 12 to create the desired circuit on the medium layer 12, so the electrical blocks P can be continuously distributed and electrically connected. Based on the design of the medium layer 12, the general users can be guided by the medium layer 12 to create the desired circuit layout, conduct the circuits, and make the desired circuit board by themselves. This configuration can allow the users to manufacturing the circuit board easily just like a professional operator. Thus, the manufacturing of circuit boards becomes more flexible, and the users can easily have fun in the preparation of circuit layout and circuit boards.
In addition, the medium layer of the hand-made circuit board 1 can have some different aspects cooperating with the above substrate 11.
The components and relations between the components of the hand-made circuit board 1a of
The design of stripe sub-patterns can provide a unique style for the medium layer 12a of the hand-made circuit board 1a, which has a better attraction to the users. Besides, in this embodiment, the electro-induced change element 15 is a light-emitting unit, and the electro-induced change element 15a is a sound unit. For example, the electro-induced change elements 15 and 15a can include an LED and a speaker. Accordingly, when the medium layer 12a becomes electrical conductive, the hand-made circuit board 1a can output light and sound. Thus, the construction assembly or education material containing the hand-made circuit board 1a can improve the product satisfaction of the user.
The other technical features of the hand-made circuit board 1a can be referred to the hand-made circuit board 1 of the previous embodiment, so the detailed descriptions thereof will be omitted.
In addition, the user can made a light-emitting unit by hands and assemble the hand-made light-emitting unit to the medium layer of the hand-made circuit board of this disclosure.
Referring to
In addition, the light-emitting diode 162 is electrically connected to the electrical substrate 161. The flexible patch 163 flatly attaches to or surrounds the electrical substrate 161 and the light-emitting diode 162, so that the electrical substrate 161 and the light-emitting diode 162 are electrically and firmly connected to each other. In this embodiment, the flexible patch 163 is a tape for fastening the electrical substrate 161 and the light-emitting diode 162. In other embodiments, the flexible patch 163 can be a double-sided adhesive or sticker for fixing the electrical substrate 161 and the light-emitting diode 162.
As shown in
To be noted, in the procedure for manufacturing the electrical substrate 161 manually, the user must cut off the redundant part of the paper card other than the desired electrical substrate 161, so that the electrical substrate 161 can be perfectly electrically connected with the medium layer 12 of the circuit board 1b. Besides, the electrical substrate 161 can also have sub-patterns similar to those of the above medium layer 12 (e.g. the shallow gray area or the stripe sub-patterns). In this embodiment, the hand-made electrical substrate 161 has sub-patterns of shallow gray areas. Accordingly, the user can follow the guidance of the electrical substrate 161 and the medium layer 12 and draw the desired circuit layout on the medium layer 12 and the electrical substrate 161. This drawing step can increase the area percentage of the electrical blocks P in the non-conductive zone 121 and the electrical substrate 161. Since the electrical blocks P has a continuous distribution on the cross-section of the non-conductive zone 121, they can be electrically connected so as to electrically conduct the medium layer 12 with the electrical substrate 161, thereby enabling the light-emitting unit 16 to emit light. In this embodiment, the electrical substrate 161 for enabling the light-emitting diode 162 to emit light is made by hands, so that the user can further enjoy the procedures for assembling the light-emitting unit 16 and operating the hand-made circuit board 1b.
The other technical features of the hand-made circuit board 1b can be referred to the hand-made circuit board 1 of the previous embodiment, so the detailed descriptions thereof will be omitted.
In summary, the present disclosure provides a hand-made circuit board, which includes a substrate and a medium layer disposed on a surface of the substrate to form a pattern. The medium layer has a non-conductive zone configured with a plurality of electrical blocks. The electrical blocks are discontinuously distributed in the non-conductive zone, so that the electrical blocks on at least one cross-section of the non-conductive zone are not electrically connected. Moreover, the medium layer can have a non-conductive zone and a conductive zone configured with a plurality of electrical blocks. The electrical blocks are continuously distributed in the conductive zone, so that the electrical blocks on at least one cross-section of the conductive zone are electrically connected. Based on the design of the medium layer, the general users can be guided to create the desired circuit layout, conducting the circuits, and making the desired circuit board by themselves. This configuration can allow the users to manufacturing the circuit board easily just like a professional operator. Thus, the manufacturing of circuit boards becomes more flexible, and the users can easily have fun in the preparation of circuit layout and circuit boards. In addition, the users can put the manufactured circuit board on a construction assembly (e.g. a stereo tree house) for providing the sound, light and magnet functions. It can be applied to the education field and provide the joy of assembling and learning.
Although the disclosure has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternative embodiments, will be apparent to persons skilled in the art. It is, therefore, contemplated that the appended claims will cover all modifications that fall within the true scope of the disclosure.
Claims
1. A hand-made circuit board, comprising:
- a substrate; and
- a medium layer disposed on a surface of the substrate to form a pattern, wherein the pattern has a non-conductive user-drawing zone configured with a plurality of electrical blocks, and the electrical particle blocks are discontinuously distributed in the non-conductive user-drawing zone, so that the electrical particle blocks on at least one cross-section of the non-conductive user-drawing zone are not electrically connected.
2. The hand-made circuit board according to claim 1, wherein the pattern further has a conductive zone configured with a plurality of electrical particle blocks, and the electrical particle blocks are continuously distributed in the conductive zone, so that the electrical particle blocks on at least one cross-section of the conductive zone are electrically connected.
3. The hand-made circuit board according to claim 2, wherein the non-conductive user-drawing zone or the conductive zone is a resistance-adjustable zone.
4. The hand-made circuit board according to claim 1, wherein the electrical particle blocks are conductive blocks, conductive wires, conductive sheets, conductive inks, conductive tapes, semi-conductive materials, or any combination thereof.
5. The hand-made circuit board according to claim 1, wherein the non-conductive user-drawing zone or the conductive zone is a resistance-adjustable zone.
6. The hand-made circuit board according to claim 1, wherein the hand-made circuit board further comprises:
- at least an electro-induced change element electrically connected to the pattern.
7. The hand-made circuit board according to claim 6, wherein the electro-induced change element is a light-emitting unit, a heating unit, a sound unit, an electrochromic unit, a magnetic unit, or any combination thereof.
8. The hand-made circuit board according to claim 6, wherein the electro-induced change element is a light-emitting unit, and the light-emitting unit is made by hands.
9. The hand-made circuit board according to claim 8, wherein the light-emitting unit comprises:
- an electrical substrate electrically connected to the pattern;
- a light-emitting diode electrically connected to the electrical substrate; and
- a flexible patch flatly attaching to or surrounding the electrical substrate and the light-emitting diode so that the electrical substrate and the light-emitting diode are electrically and firmly connected to each other.
10-11. (canceled)
Type: Application
Filed: May 18, 2018
Publication Date: Nov 21, 2019
Inventor: Chang-Ching YEH (Wanchai)
Application Number: 15/983,543