KR102222424B1 - Educational Arduino Board Set - Google Patents

Abstract

The present invention relates to an educational Arduino board set that can be easily and quickly understood by lower grades or a beginner who is new to coding without any visual difficulties for an Arduino board. The educational Arduino board set according to the present invention in order to solve the problem, comprises: the Arduino board; a lower case of a predetermined size formed in the shape of a square box with an open top so that the Arduino board is accommodated therein; an upper case of a predetermined size that covers the open upper surface of the lower case; a plurality of power blocks installed in the upper case and connected to the power terminals of the Arduino board; a plurality of analog blocks installed in the upper case and connected to the analog terminals of the Arduino board; a plurality of digital blocks installed in the upper case and connected to the digital terminals of the Arduino board; and a plurality of ground blocks connected to the ground terminal of the Arduino board while being installed in the upper case, wherein the plurality of power blocks, analog blocks, digital blocks, and ground blocks are figure blocks having different shapes.

Description

Educational Arduino Board Set {Educational Arduino Board Set}

The present invention relates to an arduino board set for parish, and more particularly, to an arduino board set for parish used to educate the lower grades or beginners who are new to coding to understand and apply the arduino board easily. About.

Coding refers to creating programs using computer languages such as C language, JAVA, and Python. In recent years, as ICT technologies representing the era of the 4th industrial revolution such as artificial intelligence, Internet of Things, robots, and big data analysis have emerged greatly. The importance of coding education to implement this is emerging.

As described above, in recent years, education of coding to control hardware has been conducted rather than simply coding for making software. As such, an Arduino is mainly used as a device for controlling hardware through coding.

Arduino is a modular board that can be assembled and used for various purposes, and has the advantage of being able to program the hardware to perform the desired operation using this.

As a conventional technique for teaching coding using Arduino as described above, a coding tool kit (hereinafter referred to as “patent document”) of Korean Patent Publication No. 2017-0135481 is disclosed.

The coding tool kit disclosed in the patent document includes a power adapter providing a DC rated voltage, a USB connection part connected to a computer and a USB cable, a power supply part connected to the power adapter, a control board and a communication part, and a button An input unit equipped with a tact switch, a thermistor, a variety of modularized sensors, an output unit equipped with a modularized motor and motor driver, an LED module, an LCD module, a buzzer, and a speaker, and other modularized parts, and a modularized input The device, the modularized output device, and other modularized parts are inserted in a detachable method, and then connected with a jumper cable to form a circuit, reducing the time of wiring or soldering parts, and coding training and physical computing ( Physical Computing) includes a coding tool kit that can be programmed using a library of programming tools for education, and the coding tool kit has an extension set in addition to the basic set, and a text coding method linked to the control board of the coding tool kit. Provides a programming tool and a block-type programming tool of, and the coding tool kit has a Bluetooth communication unit on the control board to transmit experimental data through short-range wireless communication with a smartphone, and control games, robots, and coding of various application programs. It is structured to be used in education and physical computing education.

However, in the coding tool kit disclosed in the above patent document, it is not easy for the lower grades or beginners who are new to coding to find the necessary connection terminal in the board of the Arduino and connect it directly. There is a problem that is difficult to understand easily because it feels complicated and difficult.

Therefore, there is a need to develop an Arduino board set for teaching aids that can be easily and quickly understood by lower grades or beginners who are new to coding without visual difficulties with the Arduino board.

KR 10-1859117 B1 (2018.05.11) KR 10-1924870 B1 (2018.12.05.) KR 10-1336153 B1 (November 27, 2013) KR 10-1926640 B1 (2018.12.03.) KR 10-2015-0082773 A (2015. 07. 16.)

The present invention was conceived to solve the problems of the conventional arduino board for teaching tools as described above, and the problem to be solved by the present invention is that low grades or beginners who are new to coding can easily and without visual difficulties with the Arduino board. It is to provide an Arduino board set for parish that can be quickly understood.

The arduino board set for a parish according to the present invention for solving the above problems includes: an Arduino board; A lower case of a predetermined size formed in the shape of a square box with an open top surface so that the Arduino board is accommodated therein; An upper case of a predetermined size covering the open upper surface of the lower case; A plurality of power blocks installed in the upper case and connected to the power terminals of the Arduino board; A plurality of analog blocks installed in the upper case and connected to the analog terminals of the Arduino board; A plurality of digital blocks installed in the upper case and connected to the digital terminals of the Arduino board; And a plurality of ground blocks installed in the upper case and connected to the ground terminal of the Arduino board, wherein the plurality of power blocks, analog blocks, digital blocks, and ground blocks are figure blocks having different shapes. It is characterized.

In addition, in the present invention, the plurality of power blocks, analog blocks, digital blocks, and ground blocks are disposed in the upper case to correspond to positions of the power terminals, analog terminals, digital terminals, and ground terminals of the Arduino board. It is characterized by another.

In addition, the present invention is another feature of the analog block is 1 to 4.

In addition to this, the present invention is another feature in that the number of digital blocks is 2 to 8.

In addition, the present invention is another feature in that the power supply block consists of one 3.5V and one 5V.

According to the present invention, the Arduino board is accommodated inside the upper and lower cases, so that the board is not exposed to the outside, but the necessary connection terminals can be easily understood and confirmed visually through a plurality of blocks formed in figures on the upper case. There is an advantage.

1 is a perspective view showing an example of an Arduino board set for parish according to the present invention.
Figure 2 is an exploded perspective view of Figure 1;
3 is a view showing an example in which the Arduino board is installed in the lower case according to the present invention.
Figure 4 is a view showing an example of the upper case according to the present invention.
Figure 5 (a, b) is a view showing an example of the power block according to the present invention.
6(a, b) is a diagram showing an example of an analog block according to the present invention.
7(a, b) is a diagram showing an example of a digital block according to the present invention.
Figure 8 (a, b) is a view showing an example of the ground block according to the present invention.
9 is a view showing an example in which the identification phrase is marked on the upper case of the arduino board set for teaching aid according to the present invention.

Hereinafter, according to the accompanying drawings showing a preferred embodiment of the present invention will be described in detail.

The present invention is to provide an Arduino board set for teaching tools that can be easily and quickly understood without visual difficulties for an Arduino board by a low grader or a beginner who is new to coding, and the present invention is as shown in FIGS. 1 and 2. Likewise, the Arduino board 1, the lower case 10, the upper case 20, the power block 30, the analog block 40, the digital block 50, and the ground block 60 are included.

The Arduino board 1 is a microcontroller in which various switches, sensors, and the like are connected to control the operation of a motor, etc., and the Arduino board 1 is selected and configured from known and widely used products.

The lower case 10 is configured so that the Arduino board 1 is accommodated inside and is not exposed to the outside.

This lower case 10 is formed in the shape of a square box with an open upper surface as shown in FIGS. 2 and 3, and through this, a receiving space 11 having a predetermined size in which the Arduino board 1 is accommodated is provided. Is formed.

Further, at one side of the lower case 10, through holes 12 and 13 having a predetermined size are formed so that the external input terminal 1A and the power supply terminal 1B of the Arduino board 1 protrude to the outside, respectively.

In addition, the lower case 10 is formed in a square or rectangular shape, and an assembly guide 14 protruding to a predetermined size is formed on a part of the outer surface, through which the direction of assembly with the upper case 20 to be described later is guided. Make it possible.

The upper case 20 is a configuration in which a power block 30, an analog block 40, a digital block 50, and a ground block 60, which will be described later, are assembled while covering the open upper surface of the lower case 10.

The upper case 20 includes an upper plate 21 having a size corresponding to the lower case 10 as shown in FIGS. 2 and 4, and a plurality of screw assembly holes formed to penetrate the upper and lower surfaces of the upper plate 21. In a shape corresponding to the installation hole 23 of a predetermined size, which is formed on one side of the upper plate 21 and in which the power indicator 70 is installed, and the assembly guide 14 of the lower case 10 It includes a guide cover 24 of a predetermined size to be formed.

At this time, the screw assembly hole 22 is made of a hole formed to have a predetermined diameter, and then a thread is formed along the inner surface, or a metal nut having a thread formed on the inner surface is insert-injected to be integrally formed on the top plate 21. I can.

In addition, the screw assembly hole 22 may be formed in a circular protrusion shape having a predetermined diameter so as to protrude a predetermined height relative to the upper plate 21, through which the power block 30, which will be described later, in the screw assembly hole 22, an analog block (40), even if the digital block 50 and the ground block 60 are respectively screw-assembled, a gap of a predetermined distance is formed between the top plate 21 and the block head, so that a "C" shape is formed between the block and the circular projection. The wire connection terminal (not shown) can be easily inserted.

On the other hand, at the bottom of the upper case 20, one end of a wire having a predetermined length is connected to each screw assembly hole 22, and the other end of the wire is a power terminal, an analog terminal, a digital terminal and a Each is connected to the ground terminal.

The power block 30, the analog block 40, the digital block 50, and the ground block 60 are each screwed into the screw assembly hole 22 of the upper case 20, and a "C"-shaped wire connection terminal is attached. It is a configuration to fix the position by pressing.

The power block 30, the analog block 40, the digital block 50, and the ground block 60 are shown in Figs. 5 (a, b), 6 (a, b), 7 (a, b), and Block heads 31, 41, 51, 61 having a predetermined size as shown in 8(a, b), and protruding to a predetermined height on the bottom of the block heads 31, 41, 51, 61 The pressing protrusions (32, 42, 52, 62) and one end of the pressing protrusions (32, 42, 52, 62) are inserted in a predetermined depth and fixed while the other end is vertically threaded portion (33, 43, having a predetermined length) 53, 63).

At this time, the block head 31 of the power block 30 is formed as an arrow-shaped block having a predetermined size to indicate that current flows, as shown in Figs. The shape of the block head 31 of 30) makes it easy to check the power terminals.

In addition, the power block 30 is assembled in a screw assembly hole 22 connected to the 3.5V terminal and the 5V terminal of the Arduino block 1, and consists of one 3.5V and one 5V power block 30, This makes it possible for the user to easily select and connect a power source with a required voltage.

In addition, the block head 41 of the analog block 40 is formed in a crisscross shape as shown in Figs. 6(a, b) and has a curved surface having a predetermined diameter along the outer surface to have a smooth curved surface shape as a whole. Is formed.

In addition, the block head 51 of the digital block 50 is formed in a rectangular block shape as shown in Figs. 7(a, b), and a plurality of grooves are formed at predetermined intervals along the outer surface.

Through the shapes of the block head 41 of the analog block 40 and the block head 51 of the digital block 50 as described above, it is possible to visually learn the analog and digital wavelengths.

In addition, in the ground block 60, the block head 61 is formed in a cylindrical shape having a predetermined diameter, through which the block heads 31 and 40 of the power block 30, the analog block 40, and the digital block 50 , 50).

These power blocks 30, analog blocks 40, digital blocks 50, and ground blocks 60 are located in the upper part so as to correspond to the positions of the power terminals, analog terminals, digital terminals, and ground terminals installed on the Arduino board 1. Arranged in the case 20, through this, the positions of the power terminal, analog terminal, digital terminal, and ground terminal installed on the Arduino board 1 are learned together.

In addition, in the case of lower grades or beginners who are new to coding, there are not many cases of coding that use a lot of analog blocks 40 and digital blocks 50, and for this reason, a large number of analog blocks 40 and digital blocks 50 ) Is installed, so there is no need to visually feel complicated.

Therefore, the board set for beginners who are in contact with the lower grades or coding for the first time is configured so that 1 to 2 analog blocks 40 and 2 to 3 digital blocks 50 are installed in the upper case 20, respectively, and visually simplified through this. Makes it easy to learn to code without difficulty.

In addition, the board set for the coding expert is configured to have 2 to 4 analog blocks 40 and 4 to 8 digital blocks 50 installed, through which complex coding that controls the operation of a plurality of sensors, motors, and LEDs. Make this possible.

On the other hand, as an example for making it easier to visually distinguish the power block 30, the analog block 40, the digital block 50, and the ground block 60, the block head 31 of the power block 30 is It is made in red, and the block heads 41 and 51 of the analog block 40 and the digital block 50 are made of white, and the block head 61 of the ground block 60 is made of black. The color of the heads 31, 41, 51, and 61 makes it easier to distinguish power terminals, analog terminals, digital terminals, and ground terminals.

In addition, the screw portions 33, 43, 53, 63 are shown and described only as being provided on the bottom of the block heads 31, 41, 51, 61, but unlike this, the screw portions 33, 43, 53, 63 Is provided in the upper case 20, and the screw assembly hole 22 of the upper case 20 is changed to be formed on the bottom surface of the block heads 31, 41, 51, and 61, and may be implemented.

In the above, for convenience of explanation, the drawings showing the preferred embodiments and the configurations shown in the drawings have been described with reference numerals and names, but this is an embodiment according to the present invention, and the shape and the assigned name are given in the drawings. It is limited and the scope of the rights should not be interpreted, and the simple substitution with a configuration that has the same function as a change to various predictable shapes from the description of the invention is within the range that can be changed for easy implementation by a skilled person. It will be considered extremely self-explanatory.

1: Arduino board 1A: External input terminal
1B: power supply terminal 10: lower case
11: receiving space 12: through hole
13: through hole 14: assembly guide
20: upper case 21: upper plate
22: screw assembly hole 23: installation hole
24: guide cover 30: power block
31: block head 32: pressure protrusion
33: thread 40: analog block
41: block head 42: pressure protrusion
43: threaded part 50: digital block
51: block head 52: pressure protrusion
53: threaded part 60: ground block
61: block head 62: pressure block
63: threaded portion 70: LED

Claims (5)

Arduino board 1;
A lower case 10 having a predetermined size formed in the shape of a square box with an open top so that the Arduino board 1 is accommodated therein;
An upper case 20 having a predetermined size covering the open upper surface of the lower case 10;
A plurality of power blocks 30 installed in the upper case 20 and connected to the power terminals of the Arduino board 1;
A plurality of analog blocks 40 installed in the upper case 20 and connected to the analog terminals of the Arduino board 1;
A plurality of digital blocks 50 installed in the upper case 20 and connected to the digital terminals of the Arduino board 1; And
A plurality of ground blocks 60 installed in the upper case 20 and connected to the ground terminal of the Arduino board 1;
Including,
The plurality of power blocks 30, analog blocks 40, digital blocks 50, and ground blocks 60,
It consists of blocks of shapes having different shapes,
The power block 30,
The block head 31 is formed of an arrow-shaped block having a predetermined size to indicate the current flows,
The analog block 40,
As the block head 41 is formed in a crisscross shape, a curved surface of a predetermined diameter is formed along the outer surface to form a curved surface as a whole
The digital block 50,
As the block head 51 is formed in a square block shape, a plurality of grooves are formed at predetermined intervals along the outer surface,
The ground block 60,
The block head 61 is formed in a cylindrical shape having a predetermined diameter,
The plurality of power blocks 30, analog blocks 40, digital blocks 50, and ground blocks 60,
Arduino board set for teaching aids, characterized in that arranged in the upper case (20) so as to correspond to the positions of the power terminal, analog terminal, digital terminal and ground terminal of the Arduino board (1).
delete The method according to claim 1,
The analog block 40,
Arduino board set for teaching aids, characterized by 1 to 4.
The method according to claim 1,
The digital block 50,
Arduino board set for teaching aids, characterized by 2 to 8.
The method according to claim 1,
The power block 30,
An Arduino board set for teaching aids, characterized in that it consists of one 3.5V and one 5V.

Images