KR200493151Y1 - Coding educational block set using 3D printing - Google Patents

Abstract

The present invention relates to a prefabricated block set for coding education using 3D printing, which is made of wood, a plurality of wooden rods provided for connection of the members; A basic structure coupling body and a pair of basic structure coupling wooden rod connections provided symmetrically on both sides of the basic structure coupling body, the wood rod selectively connected, and the wooden rod connected to the basic structure coupling wood rod connection A block for combining a basic structure formed in the body for combining the basic structure in parallel with the direction to be formed and having a penetration part for combining the basic structure having a non-circular shape, and manufactured by 3D printing; A body for edge coupling, an edge coupling fitting formed through the body for edge coupling, into which the neck rod is fitted, and a basic structure coupling block protruding from the outer surface of the edge coupling body in a direction crossing each other A block for edge coupling, which has two pairs of edge coupling ribs that are selectively fitted and connected to the structure coupling through part, and made by 3D printing; An expansion coupling body, an expansion coupling fitting part formed through the expansion coupling body to which the neck rod is fitted, and the expansion coupling body protruding in a direction intersecting each other from the outer surface of the expansion coupling body and the basic structure coupling block A block for expansion coupling, which is provided with three pairs of connection ribs for expansion coupling, which are selectively fitted and connected to the structure coupling through part, and manufactured by 3D printing; And a first connecting portion of a middle portion coupling body and a first connecting portion of a middle portion coupling wood rod formed at one end of the middle portion coupling body and selectively connected to the wood rod, and the other end portion of the middle portion coupling body. The wood rod for intermediate portion coupling includes a second connection portion for wood rods for intermediate portion coupling selectively connected to cross the wood rods connected to the first connection portion for wood rods, and a middle portion coupling block manufactured by 3D printing.

Description

Coding educational block set using 3D printing {Coding educational block set using 3D printing}

The present invention relates to a set of prefabricated blocks for coding education using 3D printing, and more particularly, it is possible to manufacture a plurality of standardized blocks at low cost through 3D printing, as well as to realize coding education more effectively through this. It relates to a set of prefabricated blocks for teaching coding using 3D printing.

Coding refers to writing an algorithm by converting it into an instruction of a selected programming language. In other words, making programs in computer languages such as C, Java, and Python is called coding.

Through coding education, you can develop logic skills, creativity, problem solving skills. Kindergarten and elementary school students learn the principles of computer programming using game methods such as puzzles and matching blocks.

Coding is important because everything that represents the era of the fourth industrial revolution, such as artificial intelligence, IoT, intelligent robots, and big data analysis and utilization, is implemented through software based on ICT (Information Communication Technology).

Due to this importance, foreign countries such as the United States, the United Kingdom, Japan, and Israel are competing to incorporate coding into the regular curriculum for education, and are preparing to apply it in Korea.

However, since the coating education that was previously conducted is based on PC software, there are many difficulties in configuring hardware such as a robot or a drone in connection with a control board.

Due to this difficulty, some use Lego blocks. In fact, there is a trend of increasing coding education academies using Lego blocks.

However, Lego blocks are not practically inexpensive, and in particular, due to the structural limitations of the blocks, it is impossible to create various structures.

On the other hand, as the current FDM (Fused Deposition Modeling) patent expires, it is expected to be distributed to the general public at a low price.If only structures similar to existing Lego can be standardized, anyone can use it easily and inexpensively. It is expected that the economic burden due to mandatory coding education will be reduced.

In particular, considering the fact that the limitless 3D printing technology is gradually increasing, the need for a new type of block set deviating from the existing simple block structure for effective coding education emerges.

Korean Intellectual Property Office Application No. 10-2007-0050323 Korean Intellectual Property Office Application No. 10-2010-0100522 Korean Intellectual Property Office Application No. 20-2006-0009048 Korean Intellectual Property Office Application No. 20-2011-0010644

An object of the present invention is to provide a set of prefabricated blocks for coding education using 3D printing, which can inexpensively manufacture a plurality of standardized blocks through 3D printing, as well as realize coding education more effectively through this.

The object is made of wood, a plurality of wooden rods provided for connection of the member; A basic structure coupling body and a pair of basic structure coupling wooden rod connections provided symmetrically on both sides of the basic structure coupling body, the wood rod selectively connected, and the wooden rod connected to the basic structure coupling wood rod connection A block for combining a basic structure formed in the body for combining the basic structure in parallel with the direction to be formed and having a penetration part for combining the basic structure having a non-circular shape, and manufactured by 3D printing; A body for edge coupling, an edge coupling fitting formed through the body for edge coupling, into which the neck rod is fitted, and a basic structure coupling block protruding from the outer surface of the edge coupling body in a direction crossing each other A block for edge coupling, which has two pairs of edge coupling ribs that are selectively fitted and connected to the structure coupling through part, and made by 3D printing; An expansion coupling body, an expansion coupling fitting part formed through the expansion coupling body to which the neck rod is fitted, and the expansion coupling body protruding in a direction intersecting each other from the outer surface of the expansion coupling body and the basic structure coupling block A block for expansion coupling, which is provided with three pairs of connection ribs for expansion coupling, which are selectively fitted and connected to the structure coupling through part, and manufactured by 3D printing; And a first connecting portion of a middle portion coupling body and a first connecting portion of a middle portion coupling wood rod formed at one end of the middle portion coupling body and selectively connected to the wood rod, and the other end portion of the middle portion coupling body. It characterized in that it comprises a middle portion coupling wood rod second coupling portion for selectively connecting the wood rod to cross the wood rod connected to the middle portion coupling wood rod first coupling portion, and a middle portion coupling block manufactured by 3D printing. It is achieved by a set of prefabricated blocks for teaching coding using 3D printing.

A block for mounting a control board used in connection with the block for combining the basic structure, the block for combining the corners, the block for combining the expansion and the block for combining the intermediate part through the wooden bar, and on which a predetermined control board is mounted; An ultrasonic sensor mounting block used in connection with the basic structure coupling block, the corner coupling block, the expansion coupling block, and the intermediate portion coupling block through the wooden bar, and on which a predetermined ultrasonic sensor is mounted; A servomotor mounting block used in connection with the basic structure coupling block, the corner coupling block, the expansion coupling block, and the intermediate portion coupling block through the wooden bar, and on which a predetermined servomotor is mounted; And a block for mounting a DC motor used in connection with the block for combining the basic structure, the block for combining the corners, the block for combining the expansion and the block for combining the middle part through the wooden bar, and on which a predetermined DC motor is mounted. can do.

The control board mounting block, a control board mounting body; A control board mounting groove formed on one side of the body for mounting the control board, in which the control board is mounted; And it is formed on the other side of the body for mounting the control board, it may include a wooden rod fitting portion for mounting the control board to which the wooden rod is inserted.

The control board mounting groove portion may have an opening formed parallel to or intersecting with a direction in which the wooden rod is fitted to the control board mounting fitting portion.

The ultrasonic sensor mounting block, the ultrasonic sensor mounting body; An ultrasonic sensor mounting portion provided on the body for mounting the ultrasonic sensor, on which the ultrasonic sensor is mounted; And a plurality of ultrasonic sensor mounting wooden rod fittings provided on the body for mounting the ultrasonic sensor and into which the wooden rod is inserted.

The servomotor mounting block includes: a servomotor mounting body; A servomotor mounting groove formed on one side of the servomotor mounting body and in which the servomotor is mounted at a corresponding position; And provided on the other side of the body for mounting the servo motor may include a wooden rod mounting portion for mounting the servo motor to which the wooden rod is inserted.

The DC motor mounting block may include a DC motor mounting body; A DC motor mounting portion formed on the body for mounting the DC motor and on which the DC motor is mounted at a corresponding position; And a plurality of DC motor mounting wooden bar fittings provided on one side of the DC motor mounting body and into which the wooden bar is inserted.

According to the present invention, it is possible to manufacture a plurality of standardized blocks inexpensively through 3D printing, as well as to realize coding education more effectively through this effect.

1A to 1C are front, side and isometric views of a block for combining basic structures in a prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
2A to 2C are front, side and isometric views of a block for edge coupling in a prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
3A to 3C are front, side and isometric views of a block for expansion coupling in a prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
4A to 4C are front, side and isometric views of a block for intermediate part coupling in a prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
5A to 5C are front, side and isometric views of the first control board mounting block in the prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
6A to 6C are front, side and isometric views of the second control board mounting block in the prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
7A to 7C are front, side and isometric views of a block for mounting an ultrasonic sensor in the prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
8A to 8C are front, side and isometric views of a block for mounting a servo motor in a prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
9A to 9C are front, side and isometric views of a block for mounting a DC motor in the prefabricated block set for coding education using 3D printing according to an embodiment of the present invention.
10 is a basic coupling structure using a wooden rod and a block for coupling the basic structure.
11 is a corner bonding structure using a wooden rod, a block for bonding a basic structure, and a block for bonding an edge.
12 is an expansion coupling structure using a wooden rod, a basic structure coupling block, and an expansion coupling block.
13 is an intermediate coupling structure using a wooden bar and a block for coupling the intermediate portion.
14 is a complete structure of an assembly combining FIGS. 10 to 13.
15 and 16 are diagrams illustrating an example of mounting a control board using a block for mounting a control board.
17 is a diagram illustrating an example of mounting an ultrasonic sensor using an ultrasonic sensor mounting block.
18 is a diagram showing an example of mounting a servo motor using a block for mounting a servo motor.
19 is a diagram showing an example of mounting a DC motor connected to a wheel by using a DC motor mounting block.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments to be described later in detail together with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to fully inform the scope of the invention to those of ordinary skill in the art to which the present invention belongs. And the present invention is only defined by the scope of the claims.

Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been described in detail in order to avoid obscuring interpretation of the present invention.

The same reference numerals refer to the same components throughout the specification. In addition, the terms used in the present specification (referred to) are for describing the embodiments and are not intended to limit the present invention.

In this specification, the singular form also includes the plural form unless specifically stated in a written phrase. In addition, components and actions (actions) referred to as'comprising (or having)' do not preclude the presence or addition of one or more other components and actions.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used with meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs.

In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless defined.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 to 19, the prefabricated block set for coding education using 3D printing according to the present embodiment can manufacture a plurality of standardized blocks inexpensively through 3D printing, as well as more effective coding education through this. Make it possible to realize.

That is, various types of blocks 110 to 180 shown in FIGS. 1 to 19 including the wooden stick 101 can be easily manufactured, and a desired shape can be assembled through them and used for coding education.

In particular, since it is possible to mount devices such as control board 103, ultrasonic sensor 104, servo motor 105, and DC motor 107 that were not possible with conventional LEGO blocks, the effect of coding education for children Can contribute to increase

Hereinafter, various types of blocks 110 to 180 shown in FIGS. 1 to 19 including the wooden bar 101 will be sequentially described.

The wooden bar 101 is made of wood and serves to connect members, that is, the blocks 110 to 180 of various shapes shown in FIGS.

The wooden stick 101 can be made of natural materials such as cypress, bamboo, Japanese cypress, and birch. Therefore, while being able to enhance the beauty of the exterior, it does not harm your health even if you touch it frequently. The size of the wooden stick 101 may vary from 4 pi to 10 pi.

The basic structure coupling block 110 is provided symmetrically on both sides of the basic structure coupling body 111 and the basic structure coupling body 111, as shown in FIG. 1, as long as the wooden rod 101 is selectively connected. It is formed on the body 111 for combining the basic structure in parallel with the direction in which the wooden bar connection 112 for combining the pair of basic structures and the wooden bar 101 is connected to the wooden bar connection 112 for combining the basic structure, but having a non-circular shape It includes a through part 113 for combining the basic structure. As shown in FIG. 10, the basic structure may be completed by using the block 110 and the wooden bar 101 for combining the basic structure.

The corner coupling block 120 is formed through the body 121 for corner coupling and the body 121 for edge coupling as shown in FIG. 2, and the fitting portion 122 for edge coupling into which the wooden rod 101 is inserted. , Two pairs of edge coupling connections protruding from the outer surface of the edge coupling body 121 in a direction intersecting each other and being selectively fitted into the basic structure coupling penetration part 113 of the basic structure coupling block 110 It includes a rib 123. As shown in FIG. 11, the corner bonding structure may be completed by utilizing the wooden bar 101, the basic structure bonding block 110, and the corner bonding block 120.

The expansion coupling block 130 includes an expansion coupling body 131 and an expansion coupling fitting portion 132 formed through the expansion coupling body 131 and into which the neck rod 101 is fitted, and the expansion coupling body ( Includes three pairs of expansion coupling connecting ribs 133 protruding in a direction intersecting each other from the outer surface of 131 and selectively fitted into the basic structure coupling penetration part 113 of the basic structure coupling block 110 and connected do. As shown in FIG. 12, the expansion coupling structure may be completed by utilizing the wooden rod 101, the basic structure coupling block 110, and the expansion coupling block 130.

The intermediate coupling block 140 is formed at one end of the intermediate coupling body 141 and the intermediate coupling body 141, and the wood rod first connection portion for intermediate coupling to which the neck rod 101 is selectively connected (142), the middle portion formed on the other end of the body for coupling the middle portion 141, the middle portion of which the wood rod 101 is selectively connected to cross the wood rod 101 connected to the first coupling portion 142 It includes a second connecting portion 143 for the secondary coupling wood bar. As shown in FIG. 13, the intermediate part coupling structure may be completed by using the wooden bar 101 and the intermediate part coupling block 140.

In addition, as previously described, a plurality of wooden rods 101 and blocks for combining the basic structure 110, the block for combining corners 120, the block for expansion coupling 130 and all or part of the block for coupling the middle part 140 By using it, as shown in FIG. 14, it is possible to easily make the finished assembly structure of Hannah.

Next, the control board mounting blocks 150a and 150b constitute a place where the predetermined control board 103 is mounted. That is, as shown in FIGS. 15 and 16, the control board mounting blocks 150a and 150b allow the control board 103 to be easily mounted.

Control board mounting block (150a, 150b) is a block for combining the basic structure 110, the block for combining the corners 120, the block for expansion coupling 130 and the block for coupling the middle portion through the wooden bar 101 It can be used in conjunction with all or part of it.

Such a control board mounting block (150a, 150b) is formed on one side of the control board mounting body (151a, 151b) and the control board mounting body (151a, 151b) as shown in Figs. In the control board mounting grooves (152a, 152b) in which the control board 103 is mounted, and a wooden bar mounting part for mounting the control board formed on the other side of the control board mounting body (151a, 151b), and into which the wooden bar 101 is inserted (153a, 153b) may be included.

In this case, the control board mounting grooves 152a and 152b may have openings formed parallel to or crossing the direction in which the wooden rod 101 is fitted to the control board mounting fittings 153a and 153b. Accordingly, the control board 103 may be mounted according to the direction as shown in FIG. 5 or 6.

The ultrasonic sensor mounting block 160 forms a place where a predetermined ultrasonic sensor 104 is mounted. That is, as shown in FIG. 17, the ultrasonic sensor mounting block 160 allows the ultrasonic sensor 104 to be easily mounted.

The ultrasonic sensor mounting block 160 also includes a block for combining the basic structure 110, the block for combining the corners 120, the block for combining the expansion 130 and the block for combining the middle part 140 through the wooden bar 101. Or it can be used in conjunction with some.

The ultrasonic sensor mounting block 160 is provided on the ultrasonic sensor mounting body 161 and the ultrasonic sensor mounting body 161 as shown in FIG. 7, but the ultrasonic sensor mounting portion on which the ultrasonic sensor 104 is mounted ( 162), and a plurality of ultrasonic sensor mounting wooden rod fitting portions 163 provided on the body 161 for mounting the ultrasonic sensor, to which the wooden rod 101 is fitted.

The servomotor mounting block 170 constitutes a place where a predetermined servomotor 105 is mounted. That is, as shown in FIG. 18, the servomotor mounting block 170 allows the servomotor 105 to be easily mounted.

Servo motor mounting block 170 is also, all of the block 110 for combining the basic structure, the block 120 for combining the corners, the block for combining the expansion 130 and the block for combining the middle part through the wooden bar 101 Or it can be used in conjunction with some.

Such a servo motor mounting block 170 is formed on one side of the servo motor mounting body 171 and the servo motor mounting body 171 as shown in FIG. 8, and the servo motor 105 is mounted at the corresponding position. It may include a servo motor mounting groove portion 172 and a wooden rod fitting portion 173 provided on the other side of the servo motor mounting body 171 and into which the wooden rod 101 is inserted.

Finally, the DC motor mounting block 180 constitutes a place where a predetermined DC motor 106 is mounted. That is, as shown in FIG. 19, the DC motor mounting block 180 allows the DC motor 106 to be easily mounted. At this time, the DC motor 106 may be a power source for rotating the wheel 107 in connection with the wheel 107.

The DC motor mounting block 180 is also all of the block 110 for combining the basic structure, the block 120 for combining the corners, the block for combining the expansion 130 and the block for combining the middle part through the wooden bar 101 Or it can be used in conjunction with some.

Such a DC motor mounting block 180 is formed on the DC motor mounting body 181 and the DC motor mounting body 181 as shown in FIG. 9, but the DC motor 106 is mounted at the corresponding position. It may include a mounting portion 182 and a plurality of DC motor mounting wood rod fitting portion 183 provided on one side of the DC motor mounting body 181, the wood rod 101 is fitted.

As described above, in the case of this embodiment, since 3D printing is used, various types of blocks 110 to 180 shown in FIGS. 1 to 19, including the wooden bar 101, can be easily manufactured, through which a desired predetermined shape Can be used for coding education by assembling.

In particular, since it is possible to mount devices such as control board 103, ultrasonic sensor 104, servo motor 105, and DC motor 107 that were not possible with conventional LEGO blocks, the effect of coding education for children Can contribute to increase

According to the present embodiment, which operates based on the structure as described above, it is possible to manufacture a plurality of standardized blocks inexpensively through 3D printing, as well as to realize coding education more effectively through this.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those of ordinary skill in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, it should be said that such modifications or variations belong to the claims of the present invention.

101: wooden stick 103: control board
104: ultrasonic sensor 105: servo motor
106: DC motor 107: wheel
110: basic structure bonding block 111: basic structure bonding body
112: wooden rod connection part for combining the basic structure 113: penetration part for combining the basic structure
120: corner bonding block 121: corner bonding body
122: corner fitting fitting 123: corner fitting connecting rib
130: expansion coupling block 131: expansion coupling body
132: expansion coupling fitting 133: connection rib for expansion coupling
140: middle part coupling block 141: middle part coupling body
142: wood bar first connection part for combining the middle part
143: second connection part of the wooden bar for combining the middle part
150a,150b: control board mounting block 151a,151b: control board mounting body
152a, 152b: control board mounting groove
153a, 153b: wooden rod mounting part for mounting the control board
160: ultrasonic sensor mounting block 161: ultrasonic sensor mounting body
162: ultrasonic sensor mounting part
163: wooden rod mounting part for mounting the ultrasonic sensor
170: servo motor mounting block 171: servo motor mounting body
172: Servo motor mounting groove 173: Servo motor mounting wooden rod mounting portion
180: DC motor mounting block 181: DC motor mounting body
182: DC motor mounting portion 183: DC motor mounting wooden rod mounting portion

Claims (7)

A plurality of wooden rods made of wood and provided for connection of the members;
A basic structure coupling body and a pair of basic structure coupling neck rod connections provided symmetrically on both sides of the basic structure coupling body, the wood rod selectively connected, and the length of the wood rod on the basic structure coupling wood rod connection portion A block for combining a basic structure formed in the body for combining the basic structure in parallel with a direction and having a through part for combining the basic structure having a non-circular shape and manufactured by 3D printing;
A body for edge coupling, an edge coupling fitting formed through the body for edge coupling, into which the neck rod is fitted, and a basic structure coupling block protruding from the outer surface of the edge coupling body in a direction crossing each other A block for edge coupling, which has two pairs of edge coupling ribs that are selectively fitted to the structure coupling through portion and connected, and made by 3D printing;
An expansion coupling body, an expansion coupling fitting part formed through the expansion coupling body to which the neck rod is fitted, and the expansion coupling body protruding in a direction intersecting each other from the outer surface of the expansion coupling body and the basic structure coupling block A block for expansion coupling, which has three pairs of connection ribs for expansion coupling that are selectively connected while being fitted to the structure coupling through part, and manufactured by 3D printing; And
The middle part coupling body and the middle part coupling wood rod first connection part formed on one end of the middle part coupling body and to which the neck rod is selectively connected, and the middle part coupling body formed on the other end of the middle part coupling body. 3D, characterized in that it has a second connection part for the middle part coupling that is selectively connected to the wooden rod intersecting with the wooden rod connected to the first connection part for the auxiliary coupling wood rod, and comprises a middle part coupling block manufactured by 3D printing. Prefab block set for coding education using printing.
The method of claim 1,
A block for mounting a control board used in connection with the block for combining the basic structure, the block for combining the corners, the block for combining the expansion and the block for combining the intermediate part through the wooden bar, and on which a predetermined control board is mounted;
An ultrasonic sensor mounting block used in connection with the basic structure coupling block, the corner coupling block, the expansion coupling block, and the intermediate portion coupling block through the wooden bar, and on which a predetermined ultrasonic sensor is mounted;
A servomotor mounting block used in connection with the basic structure coupling block, the corner coupling block, the expansion coupling block, and the intermediate portion coupling block through the wooden bar, and on which a predetermined servomotor is mounted; And
It is used in connection with the basic structure coupling block, the corner coupling block, the expansion coupling block and the middle portion coupling block through the wooden bar, further comprising a DC motor mounting block on which a predetermined DC motor is mounted A set of assembly blocks for coding education using 3D printing, characterized in that.
The method of claim 2,
The block for mounting the control board,
A control board mounting body;
A control board mounting groove formed on one side of the body for mounting the control board, in which the control board is mounted; And
The assembly type block set for coding education using 3D printing, characterized in that it is formed on the other side of the body for mounting the control board, and includes a wooden rod fitting part for mounting the control board to which the wooden rod is inserted.
The method of claim 3,
The control board mounting groove is characterized in that the opening is formed in a direction symmetrical to the control board mounting fitting portion with respect to the control board mounting body or in a direction crossing the control board mounting wooden rod fitting portion Prefab block set for coding education using 3D printing.
The method of claim 2,
The block for mounting the ultrasonic sensor,
A body for mounting an ultrasonic sensor;
An ultrasonic sensor mounting portion provided on the body for mounting the ultrasonic sensor, on which the ultrasonic sensor is mounted; And
The assembly type block set for coding education using 3D printing, characterized in that it is provided on the body for mounting the ultrasonic sensor and includes a plurality of ultrasonic sensor mounting wood rod fittings into which the wood rod is inserted.
The method of claim 2,
The servo motor mounting block,
Servo motor mounting body;
A servomotor mounting groove formed on one side of the servomotor mounting body and in which the servomotor is mounted at a corresponding position; And
The assembly type block set for coding education using 3D printing, characterized in that it is provided on the other side of the body for mounting the servo motor and includes a wooden rod fitting part for mounting the servo motor into which the wooden rod is inserted.
The method of claim 2,
The DC motor mounting block,
DC motor mounting body;
A DC motor mounting portion formed on the body for mounting the DC motor and on which the DC motor is mounted at a corresponding position; And
A set of assembly blocks for coding education using 3D printing, characterized in that it is provided on one side of the body for mounting the DC motor and includes a plurality of wood rod fittings for mounting the DC motor to which the wood rod is inserted.

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