KR101526341B1 - Method for providing circuit diagram of modular circuitry kits - Google Patents

Abstract

The present invention relates to a method to provide a circuit diagram of a modular circuitry kit, and more specifically to a method to provide a circuit diagram of a modular circuitry kit, comprising the steps of: (1) obtaining an electronic circuit of a composition module, a combination of plural science blocks realized by a device of which an image processing is realized, as a photograph image; (2) recognizing a circuit diagram through an analysis process of an image processing of a photograph image of an electronic circuit obtained by the device; and (3) providing additional information of the circuit diagram along with the circuit diagram recognized by the device as a display.

Description

METHOD FOR PROVIDING CIRCUIT DIAGRAM OF MODULAR CIRCUITRY KITS [0002]

The present invention relates to a method of providing a circuit diagram of a modular circuit element kit, and more particularly, to a circuit diagram of a file structure of a circuit diagram of a plurality of science blocks to be combined so as to intuitively view a circuit diagram and a circuit diagram, To a method of providing a circuit diagram of a modular circuit device kit.

There are two types of general circuit components for existing circuit configurations. That is, the general circuit components are divided into a deep type device and an SMD type device, and the SMD type is used for a commercial purpose and the board is manufactured by a SMT operation on a PCB. On the other hand, it is used for equipment and experiments that are only of a deep type. In the case of the conventional SMD type, it is too small for the passive element and the integrated IC type, so it is difficult to use it for the experiment. In the case of the deep type, the circuit is difficult to be connected when connecting the electric wire or the breadboard. And a separate component such as a breadboard connector is required. For this reason, people studying, studying, and developing electronic circuits usually use electronic sockets to construct electronic circuits or build electronic circuits on breadboards.

On the other hand, we can see that electronic circuit learning kit is used as educational material, and they mainly aim at elementary and junior high school students to understand electronic circuit through practice. Although the electronic circuit learning kit sells various stages of products according to the degree of difficulty of an electronic circuit, the configuration includes a circuit diagram, a simple manual, electronic elements (resistance, integrated IC, condenser, diode, etc.) Of the learning kit. The learner inserts each electronic element and electronic part into a gap formed in a printed circuit board and performs soldering to complete the production of a substantial electronic circuit.

However, in the manufacturing process, when the electronic device is broken due to the insufficient soldering technology, or when the electronic device is soldered to the pores of other positions by misjudging the pores on the substrate, the electronic circuit does not work properly. You will experience a case of inactivity or malfunction. In particular, electronic components and components that have been soldered and fixed once are difficult to separate and may suffer further damage due to reheating during the separation process. Finding defects in individual components on interconnected electronic circuits is making it difficult for people without expertise in circuits.

To solve this problem, a variety of teaching electronic circuit configuration kits have been proposed, in which circuit elements are modularized into blocks, and circuits are easily assembled using block-modulated circuit elements. Japanese Patent Application Laid-Open No. 10-2003-0083691 discloses a circuit board for educational purposes as an invention, and Japanese Patent No. 10-1210304 discloses a configuration kit of a modular circuit element as an invention. However, all of these conventional patent inventions are related to a method of coupling and structure of a block, so that a circuit diagram is operated through a combination of a science block and intuitively the circuit diagram can be seen. Therefore, it is necessary to understand the circuit diagram more specifically There is a problem that information such as an additional description or a principle of operation of the circuit diagram is not provided. In addition, there is a problem that it is difficult to provide information such as a PC, mobile contents, and circuit diagrams in documents.

The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods. It is an object of the present invention to provide an image processing apparatus and method which can intuitively view a circuit diagram operation and a circuit diagram of an electronic circuit by combining a plurality of science blocks, A circuit diagram of a file type is recognized through image processing of a captured image obtained by photographing an electronic circuit composed of a science block through the implemented device, and a description of the operation principle of the recognized circuit diagram and a description of a real- And a method of providing a circuit diagram of a modular circuit device kit.

In addition, the present invention further provides information that can not be provided only by a science block, but can also provide a circuit diagram in the form of an image or an Or-CAD file, thereby making it possible to create a report using a circuit diagram, It is possible to provide a circuit diagram providing method of a modular circuit device kit that enables various applications such as storage and editing and creation of new contents and further improves the user's understanding of the circuit diagram of the electronic circuit for educational purposes For other purposes.

According to an aspect of the present invention, there is provided a method of providing a circuit diagram of a modular circuit device kit,

A method of providing a circuit diagram of a modular circuit element kit,

(1) acquiring, as a photographed image, an electronic circuit of a configuration module in which a device in which image processing is implemented is implemented as a combination of a plurality of science blocks;

(2) recognizing a circuit diagram through analysis processing of image processing of a photographed image of an electronic circuit obtained by the device; And

(3) providing the display with additional explanatory information of the circuit diagram together with the circuit diagram recognized by the device.

Preferably, the science block includes:

An electronic device science block for mounting an electronic component used in the construction of an electronic circuit and displaying a circuit diagram of the electronic component on one surface and forming a contact for electrical connection of the electronic component;

A lead wire for electrical connection is mounted inside, a lead wire shape is displayed on one surface, and a lead wire contact connected to a contact of the electronic device science block is formed to provide an electrical connection between the electronic device science blocks Lead Science Blocks for; And

And a blank science block which is filled in a block space remaining as an empty space in an electronic circuit constituted by connecting connections between the electronic device science blocks and the lead wire science blocks.

More preferably, the science block comprises:

A feature code defining a block characteristic may be further formed on one surface of the electronic device science block, the lead wire science block, and the blank science block.

Even more preferably,

A numeric code, a bar code, and a QR code.

More preferably, in the step (2)

And recognizing the circuit diagram through the analysis processing of the image processing based on the photographed image circuit diagram displayed on one side by combining the science blocks in the photographed image of the electronic circuit obtained by the device in which the image processing is implemented.

Even more preferably, in the step (2)

And recognizing the circuit diagram through analysis processing of image processing based on the feature code formed on one side of the science blocks in the photographed image of the electronic circuit obtained by the device in which the image processing is implemented.

Preferably, in the step (3)

And a service providing step of recording, storing, and editing the circuit diagram provided through the display.

More preferably, the above-

It can be saved and provided as image file or Or-CAD file.

More preferably, an additional description of the above-

And may include any one or two or more of operation principle description information, real-life application information, and electronic component function information for the circuit diagram.

According to the method of providing the circuit diagram of the modular circuit element kit proposed in the present invention, it is possible to intuitively view the circuit diagram operation and the circuit diagram of the electronic circuit by the combination of the plurality of science blocks, A circuit diagram of a file type is recognized through image processing of a captured image obtained by photographing an electronic circuit constituted by a science block through a science block, and a description of a principle of operation of the recognized circuit diagram, Information can be provided.

In addition, according to the present invention, it is possible to provide information that can not be provided only by a science block, but also to provide a circuit diagram in the form of an image or an Or-CAD file, Storage, editing, and the like, and it is possible to further improve the user's understanding of the circuit diagram of the electronic circuit for educational purposes.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a system configuration for implementing a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention; Fig.
2 is a view showing another example of a system configuration for implementing a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention.
3 is a perspective view of an individual science block in a system configuration for implementing a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention.
4 is a flowchart of a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention.
5 shows a detailed flow of step S200 in a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention.
6 illustrates a detailed flow of step S300 in a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

FIG. 1 is a diagram illustrating a system configuration for implementing a method of providing a circuit diagram of a modular circuit device kit according to an embodiment of the present invention. FIG. 2 is a circuit diagram of a modular circuit device kit according to an embodiment of the present invention. FIG. 3 is a system configuration for implementing a method of providing a circuit diagram of a modular circuit device kit according to an embodiment of the present invention. FIG. 3 is a perspective view of an individual science block Fig. 1 and 2, a system for implementing a method of providing a circuit diagram of a modular circuit device kit according to an embodiment of the present invention includes a science block 100 and a device 200 .

The science block 100 is a block for assisting an understanding of electronic circuits through practice by targeting users including elementary school and junior high school students. The user constructs electronic circuits by combining a plurality of science blocks 100, Allows you to intuitively identify the state of the circuit diagram and its circuit diagram. The science block 100 may include an electronic device science block 110, a lead line science block 120, and a blank science block 130, as shown in FIGS.

In the electronic device science block 110, an electronic component used in the construction of the electronic circuit is mounted inside, a circuit diagram 111 of the electronic component is displayed on one surface, and a contact point 112 for electrical connection of the electronic component . The electronic device science block 110 may be composed of electronic components such as a resistor, a diode, a capacitor, an integrated IC, a transistor, a coil, a switch, a variable resistor, an LED, a bulb, a display, a speaker, and a power source (battery).

The lead wire science block 120 has a lead wire for electrical connection connection and a lead wire shape 121 on one surface and a lead wire contact point 112 connected to the contact point 112 of the electronic device science block 110 122 to form an electrical connection between the electronic device science blocks 110. The lead wire science block 120 may be formed of a wire of a lead wire mounted inside, as shown in FIG.

The blank science block 130 is a structure that is filled in a block space remaining as an empty space in an electronic circuit constituted by connecting connections between the electronic element science blocks 110 and the lead wire science blocks 120. The blank science block 130 is a block having the same size and shape as the electronic device science block 110 and the lead wire science block 120 and is made of a nonconductive material such as plastic material, wood material, rubber material, and styrofoam can do.

That is, the science block 100 composed of a combination of the electronic element science block 110, the lead wire science block 120, and the blank science block 130 has a feature code 140 defining the block characteristic on one surface of each block, (feature code) can be further configured. It is preferable that the feature code 140 is composed of any one of a numeric code, a bar code, and a QR code. 3 (a) is a perspective view showing an example configuration of the electronic device science block 110 of the science block 100 and FIG. 3 (b) is a view showing an example configuration of a lead wire science block 120 in the science block 100 FIG. 3 (c) is a perspective view showing an example structure of the blank science block 130 among the science blocks 100. As shown in FIG.

The device 200 photographs the electronic circuit of the configuration module implemented by the combination of the electronic device science block 110 and the plurality of science blocks 100 including the lead wire science block 120 and the blank science block 130 , And a user terminal that enables the electronic circuit to be recognized. Such a device 200 may be a smart device in which a camera and image processing are implemented. A smart device refers to a product that is not limited in functionality and can be changed or expanded substantially through an application program, and may be a smart phone, a tablet PC, or the like. In the present invention, the device 200 may be a smart device in the form of a portable terminal such as a smart phone, a tablet PC, or the like. However, the device 200 of the present invention is not limited to the types of smart devices listed before. It is also possible to photograph the electronic circuit of the configuration module implemented by combining the plurality of science blocks 100, and recognize the circuit diagram by the implemented image processing And can provide the additional explanatory information of the circuit diagram along with the circuit diagram through the display 201, the device 200 of the present invention can play any role regardless of its form.

4 is a flowchart illustrating a method of providing a circuit diagram of a modular circuit device kit according to an embodiment of the present invention. As shown in FIG. 4, a method of providing a circuit diagram of a modular circuit device kit according to an embodiment of the present invention includes a step (S100) of acquiring an electronic circuit as a photographed image, (Step S200), and providing additional explanation information together with the circuit diagram (step S300).

In step S100, the electronic circuit of the configuration module in which the device 200 in which the image processing is implemented is implemented as a combination of the plurality of science blocks 100, can be obtained as a photographed image. That is, in step S100, the user including the elementary and junior high school students constitutes an electronic circuit by a combination of the plurality of science blocks 100 as shown in Figs. 1 and 2, and the operation and the circuit diagram of the circuit diagram implemented by the electronic circuit are intuitively I can see it. The circuit diagram operation and the circuit diagram of the electronic circuit can be seen by configuring the electronic circuit by combining the electronic element science blocks 110, the lead wire science blocks 120 and the blank science blocks 130 described above, It becomes difficult to know information such as additional description of the circuit and operation principle. Accordingly, in step S100, a photographed image for circuit diagram analysis is obtained by photographing an electronic circuit implemented by coupling of a plurality of science blocks 100 through a camera 200 through a device 200 implemented with a camera and image processing.

In step S200, the device 200 recognizes the circuit diagram through analysis processing of the image processing of the captured image of the electronic circuit obtained. In this step S200, as shown in FIG. 5, the image processing of the image processing based on the photographed image circuit diagram displayed on one side by the combination of the science blocks 100 in the photographed image of the electronic circuit obtained by the device 200 in which the image processing is implemented And recognizing the circuit diagram through an analysis process (S210). In step S200, as shown in FIG. 5, image processing based on the feature code 140 formed on one side of the science blocks 100 in the photographed image of the electronic circuit obtained by the device 200 in which the image processing is implemented And a step of recognizing the circuit diagram through the analysis process of step S220. That is, in step S200, a feature code 140, which is a circuit diagram of an electronic circuit of a configuration module implemented by combining a plurality of science blocks 100, using symbols and lines, or one of a numeric code, a barcode, and a QR code, The device 200 may recognize the circuit diagram through one of the methods of recognizing the device.

In step S300, it is possible to provide the display 201 with additional explanation information of the circuit diagram together with the circuit diagram recognized by the device 200. [ In this step S300, the user can intuitively view the circuit diagram of the electronic circuit realized by combining the plurality of science blocks 100, and at the same time, the user can intuitively observe the operation and the circuit diagram through the display 201 of the device 200, Information on the operation principle and the like can be provided. In addition, in step S300, as shown in FIG. 6, it may further include a service providing step (S310) of recording, storing, and editing the circuit diagram provided through the display 201. FIG. Here, the circuit diagram can be stored as an image file or an Or-CAD file and can be provided to the user. Further, the additional description of the circuit diagram may include any one or two or more of operation principle description information, real-life application information, and electronic component function information on the circuit diagram. Accordingly, the user can receive information that can not be provided only by the science block 100, and can create new contents. In addition, various applications such as writing reports using circuit diagrams, recording, storing and editing circuit diagrams can be made possible.

5 is a detailed flowchart of step S200 in a method of providing a circuit diagram of a modular circuit device kit according to an embodiment of the present invention. As shown in FIG. 5, in step S210, an analysis of image processing based on a photographed image circuit diagram displayed on one side by a combination of the science blocks 100 in a photographed image of electronic circuits obtained by the device 200 in which the image processing is implemented And shows the process of recognizing the circuit diagram through the process. Also, in step S220, the circuit diagram is shown through the analysis processing of the image processing based on the feature code 140 formed on one side of the science blocks 100 in the photographed image of the electronic circuit obtained by the device 200 in which the image processing is implemented This is the process of making it recognizable.

FIG. 6 is a detailed flowchart of a step S300 in a method of providing a circuit diagram of a modular circuit element kit according to an embodiment of the present invention. As shown in Fig. 6, in step S300 of providing additional description information of the circuit diagram to the display 201 together with the circuit diagram recognized by the device 200, a record of the circuit diagram provided by the user via the display 201 (S310) so that a service of storing, editing, and editing data can be provided.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

100: Science Block 110: Electronic Element Science Block
111: Circuit diagram of electronic parts 112: Contact point
120: Lead wire Science block 121: Lead wire shape
122: Lead wire contact point 130: Blank Science block
140: Feature code 200: Device
201: Display
S100: Step of obtaining the electronic circuit as a shot image
S200: step of recognizing a circuit diagram through analysis processing of image processing
S210: Recognizing the circuit diagram through analysis processing of image processing based on the photographed image circuit diagram
S220: Recognizing the circuit diagram through the analysis processing of the image processing based on the feature code
S300: Providing additional explanation information together with the circuit diagram
S310: service providing step of recording, storing, and editing the circuit diagram

Claims (9)

A method of providing a circuit diagram of a modular circuit element kit,
(1) acquiring, as a photographed image, an electronic circuit of a configuration module in which a device 200 in which image processing is implemented is implemented by a combination of a plurality of science blocks 100;
(2) recognizing a circuit diagram through analysis processing of image processing of a photographed image of an electronic circuit obtained by the device 200; And
(3) providing the display 201 with additional explanatory information of the circuit diagram with the circuit diagram recognized by the device 200,
In the science block 100,
An electronic device used in the construction of an electronic circuit is mounted inside and a circuit diagram 111 of the electronic device is displayed on one surface and an electronic device science block 110 );
A lead wire for electrical connection is mounted inside and a lead wire shape 121 is displayed on one side and a lead wire contact 122 connected to the contact point 112 of the electronic device science block 110 is formed, A lead wire science block 120 for providing an electrical connection connection between the device science blocks 110; And
And a blank science block 130 filled in a block space remaining as an empty space in an electronic circuit constituted by connection between the electronic device science blocks 110 and lead wire science blocks 120 Of the module circuit module.
delete 2. The method of claim 1, wherein the science block (100)
Characterized by further comprising a feature code (140) (feature code) defining a block characteristic on one side of the electronic device science block (110), the lead wire science block (120) and the blank science block (130) A method of providing a circuit diagram of a device kit.
4. The method of claim 3, wherein the feature code (140)
A numeric code, a bar code, and a QR code.
2. The method according to claim 1, wherein in the step (2)
A process of recognizing a circuit diagram through analysis processing of image processing based on a photographed image circuit diagram displayed on one side by combining science blocks 100 in a photographed image of an electronic circuit obtained by the device 200 in which the image processing is implemented Wherein the circuit diagram of the modular circuit element kit is provided with a circuit diagram.
5. The method according to claim 4, wherein in the step (2)
A process of recognizing a circuit diagram through analysis processing of image processing based on a feature code 140 formed on one side of the science blocks 100 in an image taken by an electronic circuit obtained by the device 200 in which the image processing is implemented Wherein the circuit diagram of the modular circuit element kit is provided with a circuit diagram.
7. The method according to any one of claims 1 to 6, wherein in the step (3)
And providing a service for recording, storing, and editing the circuit diagram provided through the display (201).
8. The method according to claim 7,
And storing and providing the image data as an image file or an Or-CAD file.
8. A method according to claim 7,
Wherein the operation information includes at least one of operation principle description information, real-life application information, and electronic component function information for the circuit diagram.

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