KR102146201B1 - Coding Education System Using Drone Production Kit - Google Patents

Abstract

The present invention relates to a coding education system using a drone-making kit. According to the present invention, the coding education system enables students to make a drone with the drone-making kit and control the drone, wherein a motor for operating a wing is controlled. The motor is controlled by a control unit and the control unit controls turn-on/off of the motor and the rotational speed of the motor. Accordingly, the students can control the drone made by using the drone-making kit through direct coding, thereby providing effects of increasing interest and providing a significant educational effect. Moreover, a structure of a drone made of a corrugated cardboard is simple and the students or ordinary persons can understand the structure well while easily making the drone. Moreover, the corrugated cardboard is used, thereby providing effects of reducing manufacturing cost, preventing an accident caused by fragments generated when the drone is broken, and providing a significant eco-friendly effect.

Description

Coding Education System Using Drone Production Kit

The present invention relates to a coding education system using a drone production kit, and more specifically, a drone production kit with increased interest and remarkable learning effect because students can directly control the drones produced using the drone production kit through coding. It relates to a coding education system using

In general, drones are widely used in real life such as disasters and traffic, and a method of manufacturing them has been developed, and as an example, in Unexamined Patent Publication No. 10-2017-0120802, a piece of the lower plate of the body and the upper plate of the body configured to be ripped along a perforation line Preparing a prefab kit including a piece, a plurality of wing support plate pieces, a plurality of motor support pieces, a plurality of top plate support pieces, a wooden board including a battery case piece, a plurality of propellers, a drone board, a battery, a plurality of motors ; The lower part of the body is provided with a groove in which a piece of the battery case is inserted on the lower surface, and the lower part of the body including a blade part which is radially protruding from the center part and a blade part having a first motor insertion hole at the end part is removed from the wooden board. Remove the blade support plate piece having the second motor insertion hole having the same diameter as the first motor insertion hole from the wooden board, so that the first motor insertion hole and the second motor insertion hole coincide with the upper surface of the blade portion of the body lower plate piece. Adhering the wing support plate pieces; A piece of motor pedestal having a motor support hole having a diameter smaller than that of the first motor insertion hole is removed from the wooden board, and the first motor insertion hole and the motor supporting hole are concentrically attached to the lower surface of the blade portion of the lower plate of the body. Step to do; Prepare the lower body plate fixed by inserting the upper plate support with a pair of protrusions into the groove provided in the wing support plate piece, and attach the wing support plate piece to the lower surface of the body upper plate in the same manner as the body lower plate. Making the insertion hole coincide with the fourth motor insertion hole of the blade support plate; Preparing a battery case by tearing off a piece of the battery case from the wooden board and assembling and bonding it into a case shape; Mounting the drone board to the lower plate of the body, inserting the motor into the first motor insertion hole and the second motor insertion hole, but mounting the lower end of the motor to be in close contact with the motor support hole of the motor support; While inserting the protrusion of the upper plate support into the groove provided on the wing support plate coupled to the upper wing of the body, insert the motor into the 3rd motor insertion hole of the body upper plate and the 4th motor insertion hole of the wing support plate to couple the body upper plate to the lower body plate. Step to do; And there is disclosed a method for manufacturing a prefabricated drone kit made of wood, comprising the step of coupling the battery case to the lower plate of the body.

Registered Patent Publication No. 10-1764850 includes a sensor unit comprising a plurality of sensors, a driving unit connected to the sensor unit and operated by detection of the sensor unit, and connected to the sensor unit and the driving unit, according to a coded program, A control unit that receives a detection signal from the sensor unit and operates the driving unit, a communication unit connected to the control unit to perform a transmission/reception function, a PID control aircraft connected to the control unit and capable of PID control, and a drone controlled through the communication unit And, a kit for training a drone, comprising a joystick connected to the control unit to control the PID control aircraft and the drone is disclosed.

However, since the conventional drone production kit is made of rigid materials (wood, iron), the unit cost is high, and when the drone is damaged, it can result in a safety accident due to debris coming out, and it is difficult to manufacture a drone due to the complicated structure. There was a disadvantage that was difficult to make.

In addition, it is inconvenient for students to directly code using a drone production kit, and it is difficult for students to control the created drone through direct coding, so there is a disadvantage that there is little interest in drones and the learning effect is low.

Therefore, the present invention was conceived to solve the above problems. In the present invention, students can directly control the drones manufactured using the drone manufacturing kit through coding, so that interest is enhanced and the learning effect is remarkable. It is to provide a coding education system.

The present invention relates to a coding education system using a drone production kit. In a coding education system using a drone production kit, a drone is manufactured using the drone production kit, and the manufactured drone is controlled, but the wing is operated. Controlling a motor, wherein the motor is controlled by a control unit, wherein the control unit controls on/off of the motor and control of a motor rotation speed.

Therefore, in the present invention, since students can directly control drones produced using drone production kits through coding, interest is enhanced and learning effects are remarkable.

In addition, the structure of the drone made of corrugated cardboard is simple, students and the general public can easily make it and understand the structure well, the production cost is low by using corrugated board, and safety accidents due to debris generated when damaged can be prevented, and the environment There is a remarkable effect of being friendly.

1 is a plan view of a corrugated board 1000 for a body according to the present invention
Figure 2 is a side view of a drone that has been assembled according to the present invention
Figure 3 is a side view of the body portion 100 according to the present invention

The present invention relates to a coding education system using a drone production kit. In a coding education system using a drone production kit, a drone is manufactured using the drone production kit, and the manufactured drone is controlled, but the wing is operated. Controlling a motor, wherein the motor is controlled by a control unit, wherein the control unit controls on/off of the motor and control of a motor rotation speed.

In addition, the control unit is characterized in that it is installed on the body.

In addition, the control unit is characterized in that the motor is connected to the wire or wireless communication.

In addition, a wireless communication management module is installed in the control unit.

In addition, the motor is characterized in that it is a step motor capable of forward and reverse.

The present invention will be described in detail with reference to the accompanying drawings as follows.

1 is a plan view of a corrugated board 1000 for a body according to the present invention, FIG. 2 is a side view of a drone assembled according to the present invention, and FIG. 3 is a side view of a body part 100 according to the present invention.

In the present invention, in a coding education system using a drone manufacturing kit, a drone is manufactured using the drone manufacturing kit, and the manufactured drone is controlled, but a motor that operates the wings is controlled. The motor is controlled by a control unit, and the control unit controls on/off of the motor and control of the motor rotation speed.

The control unit is installed on the body of the drone, and the control unit is connected to the motor through wired or wireless communication.

The motor is a step motor that can be reversed.

On the other hand, in the present invention, the drone manufacturing kit uses a drone manufacturing kit using corrugated cardboard, and the body part 100 is made by folding the corrugated cardboard 1000 for the body, and the wing connection part 110 is attached to the body part 100 And, a wing portion 200 is attached to the wing connection portion 110, and the body portion 100 is composed of a wing connection space portion 120 at a lower portion and a control installation space portion 130 at an upper portion.

In addition, the body of the corrugated cardboard 1000 is a rectangular corrugated cardboard (1100) for the body (1100) is formed integrally with two square corrugated cardboard (1110) for the wing connection, each on the left and right sides, the upper side of the rectangular corrugated cardboard (1100) for the body A rectangular upper corrugated cardboard 1200 for forming the control unit installation space 120 is integrally formed, and the rectangular upper corrugated cardboard 1200 has two horizontal wrinkles formed, and a coupling protrusion 1201 at the end ) Is formed, and the lower side of the rectangular corrugated cardboard 1100 for the body is integrally formed with a rectangular lower corrugated cardboard 1300 for forming the wing connection space 120, the lower corrugated cardboard 1300 of the rectangular It is formed twice, and a coupling protrusion (1301) is formed at the end, and when the coupling protrusion (1301) is also folded with a horizontal corrugation, first, the upper square corrugated cardboard 1200 is folded upward, and then the square for the wing connection The corrugated cardboard 1110 is folded down, and then the lower rectangular corrugated cardboard 1300 is folded down so that the upper part of the body part 100 forms the control part installation space part 120, and the lower part of the body part 100 is The wing connection space 120 is formed, and an adhesive is applied to the lower end of the lower surface of the lower surface of the rectangular corrugated cardboard 1300 for bonding to form a rectangular parallelepiped with open left and right sides by bonding to the lower surface of the rectangular corrugated board 1100 for the body. It becomes.

In addition, the rectangular corrugated cardboard 1100 for the body has two vertical grooves at the top and two at the bottom so that the quadrangular corrugated cardboard 1110 for the wing connection part are combined.

In addition, the rectangular corrugated cardboard 1100 for the body has two horizontal grooves formed at the lower edge of the body, so that the protrusions of the rectangular corrugated upper plate are combined.

In addition, the wing connection part 110 is a cylindrical column made of corrugated cardboard and is coupled to each of the front, rear, left and right sides of the body part 100.

In addition, the wing portion 200 is made of a plastic blade and a motor that operates the blade.

In addition, the control unit, the battery, and the motor are connected by wires.

In the manufacturing method of the present invention, a body part is made by folding a corrugated board for a body, and a wing connection part is attached to the body, and a wing part is attached to the wing connection part, and the body part consists of a wing connection space part at the lower part and a control installation space part at the upper part. .

The corrugated body for the body is integrally formed with a rectangular corrugated board for wing connection, two on the left and right sides of the rectangular corrugated cardboard.

The upper side of the square corrugated cardboard is integrally formed with a rectangular upper corrugated cardboard for forming the control unit installation space in which the control unit and the battery are installed, and the rectangular corrugated corrugated board has two horizontal folds, and a coupling protrusion is formed at the end.

The lower side of the rectangular corrugated cardboard is integrally formed with a rectangular lower corrugated board for forming a wing connecting space, and the rectangular corrugated corrugated board has two horizontal wrinkles formed, and a bonding protrusion is formed at the end, and the bonding protrusion is also horizontally formed. Wrinkles are formed.

Therefore, when folded, the upper square corrugated cardboard is first folded up, then the square corrugated cardboard for the wing connection is folded down, and then the lower square corrugated cardboard is folded down to form the control installation space part of the upper part of the body, and the lower part of the body A wing connection space is formed, and an adhesive is applied to the lower end of the lower surface of the joint protrusion of the lower panel of the rectangular corrugated board, and the right and left rectangular parallelepiped is formed by bonding to the lower surface of the rectangular corrugated body.

On the other hand, the rectangular corrugated cardboard has two vertical grooves at the top and two at the bottom to combine the rectangular corrugated cardboards for the wing connection part.

The square corrugated cardboard has two horizontal grooves formed on the lower edge of the rectangular corrugated cardboard, and the protrusions of the upper rectangular corrugated cardboard are combined.

The wing connection portion is a cylindrical column made of corrugated cardboard, and is coupled to each of the front, rear, left and right sides of the body portion, and the wing portion is made of a plastic wing and a motor that operates the wing. The blades have their axis perpendicular to the ground so that the blades are positioned horizontally and parallel.

The control unit, battery, and motor are connected by wires.

” 형상이다.The entire expanded view of the corrugated board is “

It is a shape.

Therefore, the present invention has a simple structure, makes it easy for students and the general public to understand the structure well, uses corrugated cardboard to make the production cost inexpensive, prevents safety accidents caused by debris from damage, and has a remarkable environmentally friendly effect. There is.

1000: corrugated cardboard for body 1100: square corrugated cardboard for body
1110: square corrugated cardboard for wing connection 1200: upper corrugated cardboard
1201: bonding protrusion 1300: lower corrugated board
1301: coupling protrusion 100: body
110: wing connection part 120: wing connection space part
130: control unit installation space 200: wing

Claims (2)

In the coding education system using a drone production kit, a drone is manufactured using the drone production kit, and the manufactured drone is controlled, but a motor that operates a wing is controlled, and the motor is controlled by a control unit. , In the coding education system using a drone manufacturing kit that controls the on-off of the motor and the motor rotation speed control,
The control unit is installed on the body of the drone and is connected to the motor through wired or wireless communication, and the motor is a step motor capable of forward and reverse,
The drone manufacturing kit is a drone manufacturing kit using corrugated cardboard, and the corrugated cardboard 1000 for the body is folded to make the body part 100, and the wing connection part 110 is attached to the body part 100, and the wing A wing part 200 is attached to the connection part 110, but the body part 100 is composed of a wing connection space part 120 in the lower part and a control part installation space part 130 in the upper part,
The body of the corrugated board (1000) is a rectangular corrugated board (1100) for the body (1100) is formed integrally with two square corrugated cardboard (1110) for the wing connection, each on the left and right sides, and a control unit and a battery are installed on the upper side of the rectangular corrugated body (1100). A rectangular upper corrugated cardboard 1200 for forming the control unit installation space 120 is integrally formed, and the rectangular upper corrugated cardboard 1200 has a horizontal corrugation, and a coupling protrusion 1201 is formed at the end, , The lower side of the square corrugated cardboard 1100 for the body is integrally formed with a rectangular lower corrugated cardboard 1300 for forming the wing connection space 120, and the lower corrugated corrugated cardboard 1300 of the square has a horizontal corrugation, A coupling protrusion 1301 is formed at the end, and when a horizontal wrinkle is formed in the coupling protrusion 1301 and is folded, the upper square corrugated cardboard 1200 is first folded upward, and then the square corrugated cardboard 1110 for the wing connection is lowered. After that, the lower square cardboard 1300 is folded down so that the upper part of the body part 100 forms the control unit installation space part 120, and the lower part of the body part 100 is the wing connection space part 120 ) Is formed, and an adhesive is applied to the lower end of the lower surface of the bonding protrusion 1301 of the lower panel square corrugated cardboard 1300, and is bonded to the lower surface of the rectangular corrugated board 1100 for the body to form a rectangular parallelepiped with open left and right sides,
The rectangular corrugated cardboard 1100 for the body has vertical grooves formed in the upper and lower portions so that the rectangular corrugated cardboard 1110 for the wing connection part are combined,
The rectangular corrugated cardboard 1100 for the body has a horizontal groove formed at the lower edge of the body, so that the protrusions of the upper rectangular corrugated cardboard are combined,
The wing connection part 110 is a cylindrical column made of corrugated cardboard and is coupled one by one to the front, rear, left and right sides of the body part 100,
The wing part 200 is made of a plastic wing and a motor that operates the wing,
The control unit, battery, and motor are connected by wires,
The entire expanded view of the corrugated board is “

”Coding education system using a drone production kit characterized by a shape delete

Images