KR20130109655A - Robot education board - Google Patents

Abstract

The present invention relates to a breadboard for robot training, because the other breadboard member is provided so that the other breadboard member is symmetrical with the other breadboard member on the other side of the breadboard member, the operator is electronically in the one breadboard member and the other breadboard member, respectively. The components can be easily installed to be symmetrical with each other, and the power supply of one power supply unit can be more easily supplied to both the one breadboard member and the other breadboard member through a connection connector.

Description

Breadboard for Robot Education {ROBOT EDUCATION BOARD}

According to the present invention, since the other breadboard member is provided on the other side of the breadboard member so as to be symmetrical with the one breadboard member, the operator may easily symmetric each other with the electronic components on the one breadboard member and the other breadboard member. Of course, the present invention relates to a breadboard for robot education that can more easily supply power to one power supply unit to both the one breadboard member and the other breadboard member through a connection connector.

Generally, in order to manufacture electronic circuits for learning the functions and operations of robots or toys, measuring devices such as testers and oscilloscopes, and electronic materials such as soldering machines, solders, wires, nippers, substrates, solder inhalers, and breadboards, etc. And electronic components such as manufacturing equipment, resistors, capacitors, control ICs, LEDs, and the like.

On the other hand, due to the characteristics of the breadboard, not only the electronic components cannot be installed symmetrically on the breadboard, but also a problem that a plurality of power supply units are used to supply power to a plurality of electronic components installed on the breadboard. There is this.

The present invention was created in order to solve the above-described problems, and because the other breadboard member is provided on the other side of one breadboard member to be symmetrical with the one breadboard member, the worker has the one breadboard member and the other breadboard. Electronic components can be installed on the members so as to be more easily symmetrical with each other, as well as a robot training bread that can more easily supply the power of one power supply unit to both the one breadboard member and the other breadboard member through a connection connector. The purpose is to provide a board.

The present invention for achieving the above object is one breadboard member; The other breadboard member is provided on the other side of the breadboard member symmetrically with the one breadboard member; including, the one breadboard member and the other breadboard member are respectively installed so that the electronic components are symmetric with each other It provides a breadboard for robot education, characterized in that.

The electronic component may include one electronic component installed at the one breadboard member; A second electronic component installed on the other breadboard member so as to be symmetrical with the one electronic component, wherein the one breadboard member comprises one side support board supporting the one electronic component; One side power supply board provided on one side of the one side component supporting board to supply power to the one side electronic component; and the other breadboard member is provided on the other side of the one side supporting board. Another component support board for supporting the component; It is preferable that the other side is provided on the other side of the component support board for supplying power to the other electronic component;

And, it is preferable that the support plate for mounting and supporting the one bread board member and the other bread board member.

In addition, the adhesive layer is preferably formed on the upper portion of the support plate.

Or, it is preferable that the adhesive layer is formed on the upper portion of the support plate and the lower portion of the support plate, respectively.

Further, it is preferable that a release paper is attached to the adhesive layer.

In addition, the power intermittent is provided on the one side power supply board to control the power supply to the one side power supply board and the other power supply board; The one side is provided between the upper portion of the one side power supply board and the upper side of the other power supply board so that power supplied to the one side power supply board through the power interruption unit can be supplied to the other side power supply board. It is preferably made, including a; a connector for connecting the power supply board and the other power supply board.

In addition, a lead insertion hole consisting of one lead insertion hole and the other lead insertion hole is formed on the upper surface of the one side power supply board and the other side power supply board at regular intervals, and the one side lead insertion hole is the one side A first one side lead insertion hole formed on one side of an upper surface of the power supply board at a predetermined interval in the front and rear direction to supply positive power to the one electronic component 310 through the power interruption unit; And a second one side lead insertion hole which is formed on the other side of the upper surface of the one side power supply board at a predetermined interval in the front and rear direction to supply (-) power to the one electronic component 310 through the power interruption unit. The second lead insertion hole is formed at a predetermined interval in the front-rear direction on one side of the upper surface of the other power supply board to supply (-) power to the other electronic component through the power interrupter and the connection connector. 1 lead lead insertion hole; A second lead insertion hole formed on the other side of the upper surface of the other power supply board at a predetermined interval in the front and rear direction to supply (+) power to the other electronic component through the power control unit and the connection connector; It is preferable to make.

And a power supply unit connected to the support plate and to the power control unit; Preferably, a driving module driven by the control of the electronic component is provided.

According to the present invention, since the other breadboard member is provided on the other side of the breadboard member so as to be symmetrical with the one breadboard member, the operator may easily symmetric each other with the electronic components on the one breadboard member and the other breadboard member. Of course, there is an effect that it is possible to more easily supply the power of one power supply unit to both the one breadboard member and the other breadboard member through a connection connector.

1 is a plan view schematically showing a breadboard for robot training that is an embodiment of the present invention,
2 is an exploded front view schematically illustrating a state in which electronic components symmetrical to each other are separated from one breadboard member and the other breadboard member;
FIG. 3 is a cross-sectional view of FIG. 2,
4 is a front view schematically showing an example of the support plate,
5 is a front view schematically illustrating a state in which one breadboard member and the other breadboard member are seated on an upper surface of the support plate of FIG. 4;
6 is a front view schematically showing another example of the support plate,
FIG. 7 is a front view schematically illustrating a state where one breadboard member and the other breadboard member are seated on an upper surface of the support plate of FIG. 6;
8 is a rear view schematically illustrating a power interruption unit;
9 is a plan view schematically showing a state where a power intermittent portion is installed in one breadboard member;
10 is a front view schematically showing a connection connector,
FIG. 11 is a bottom view of FIG. 10;
12 is a plan view schematically illustrating a state in which a connection connector is installed between an upper portion of one breadboard member and an upper portion of the other breadboard member.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a plan view schematically showing a breadboard for training robots an embodiment of the present invention.

The breadboard for robot training, which is an embodiment of the present invention, is largely configured to include one breadboard member 10 and the other breadboard member 20 as shown in FIG. 1.

FIG. 2 is an exploded front view schematically illustrating a state in which the electronic components 30 symmetrical to each other are separated from one breadboard member 10 and the other breadboard member 20, and FIG. 3 is a cross-sectional view of FIG. 2.

On one side of the breadboard member 10 and the other breadboard member 20, the electronic components 30 such as resistors, capacitors, control ICs, LEDs, and the like shown in FIGS. 2 and 3 are installed to be symmetrical with each other by an operator. do.

The electronic component 30 includes one electronic component 310 installed above the one breadboard member 10; And the other electronic component 320 installed on the other breadboard member 20 so as to be symmetrical with the one electronic component 310.

A plurality of lead pins 300 are integrally perpendicular to a lower portion of the electronic component 30 including the one electronic component 310 and the other electronic component 320 which is symmetrical to the one electronic component 310. Can be formed.

The lead pin 300 may be composed of a fixing pin 301 and a power supply lead pin 302.

The fixing pin 301 may be vertically formed on one lower side of the electronic component 30.

The power supply lead pin 302 may be vertically formed at a predetermined interval in a lower middle portion of the electronic component 30.

The power supply lead pin 302 may include a first power supply lead pin 302a and a second power supply lead pin 302b.

The first power supply lead pin 302a may be vertically formed in the lower middle portion of the electronic component 30 to supply positive power to the electronic component 30.

The second power supply lead pin 302b is vertically formed in the lower middle portion of the electronic component 30 so as to be positioned between the fixing pin 301 and the first power supply lead pin 302a. 30) can supply negative power.

Next, the one breadboard member 10 is large, as shown in Figures 1 to 3, one side support board for supporting the one side electronic component 310 and 110;

One side power supply board for supplying power to the one side electronic component 310 is provided in one side direction of the one side component support board 110 in a state of maintaining a predetermined interval with the one side component support board 110 ( 120);

The other breadboard member 20 is integrally provided on the other side of the one component support board 110 and the other component support board 210 for supporting the other electronic component 320;

The other power supply board is provided in the other direction of the other component support board 210 while maintaining a predetermined interval with the other component support board 210 to supply power to the other electronic component 320 ( 220); can be configured.

4 is a front view schematically showing an example of the support plate 40, Figure 5 is a state in which one breadboard member 10 and the other breadboard member 20 is seated on the upper surface of the support plate 40 of FIG. It is a schematic front view.

Next, as shown in Figures 4 and 5 may be provided with a support plate 40 for seating and supporting the one breadboard member 10 and the other breadboard member 20.

The support plate 40 may be made of a paper material, including cardboard, etc., but is not necessarily limited thereto. The support plate 40 may be made of a variety of materials, such as a synthetic resin material, such as plastic.

As shown in FIGS. 4 and 5, an adhesive layer 50 may be formed on an upper surface of the support plate 40 to be adhered to a lower portion of the one breadboard member 10 and a lower portion of the other breadboard member 20. have.

As the adhesive layer 50, a double-sided tape or the like may be used, but is not necessarily limited thereto, and the adhesive layer 50 may be attached to a lower portion of the one breadboard member 10 and a lower portion of the other breadboard member 20. Both can be used.

FIG. 6 is a front view schematically showing another example of the support plate 40, and FIG. 7 is a state in which one breadboard member 10 and the other breadboard member 20 are seated on an upper surface of the support plate 40 of FIG. It is a front view which shows schematically.

Alternatively, as shown in FIGS. 6 and 7, the adhesive layer 50 may be formed on both the upper portion of the support plate 40 and the lower portion of the support plate 40.

The adhesive layer 50 may include an upper adhesive layer 510 formed on the support plate 40 as shown in FIG. 4 or an upper adhesive layer 510 formed on the support plate 40 as shown in FIG. 6. ; And a lower adhesive layer 520 formed under the support plate 40.

Release paper 60 may be attached to the adhesive layer 50.

The release paper 60 is an upper release paper 610 attached to an upper surface of the upper adhesive layer 510 as shown in FIG. 4 or an upper release paper attached to an upper surface of the upper adhesive layer 510 as shown in FIG. 6. 610; Lower release paper 620 attached to the lower surface of the lower adhesive layer 520; may be made.

The operator separates the upper release paper 610 from the upper adhesive layer 510, and as shown in FIG. 5, the one breadboard member 10 and the other breadboard member 20 on the upper adhesive layer 510. It can be seated.

When the adhesive strength of the upper adhesive layer 510 becomes weaker as time passes, the worker separates the lower release paper 620 from the lower adhesive layer 520 while the support plate 40 is turned over, and then the lower adhesive layer 520. One side of the breadboard member 10 and the other breadboard member 20 can be seated on the top.

FIG. 8 is a rear view schematically showing the power interrupter 70, and FIG. 9 is a plan view schematically illustrating a state in which the power interrupter 70 is installed in one breadboard member 10.

Next, as shown in FIGS. 8 and 9, the power interrupter 70 may be provided.

The power intermittent part 70 may be provided on the one side power supply board 120 to control whether the power supply is supplied to the one side power supply board 120 and the other power supply board 220.

A plurality of lead pins 700 may be vertically integrally formed at a predetermined interval under the power control unit 70.

The lead pin 700 may be composed of a fixing pin 710 and a power supply lead pin 720.

The fixing pin 710 may be vertically formed at one lower side of the electronic component 30.

The power supply lead pin 720 may be vertically formed at a predetermined interval in a lower middle portion of the power control unit 70.

The power supply lead pin 720 may include a first power supply lead pin 721 and a second power supply lead pin 722.

The first power supply lead pin 721 is vertically formed in the lower middle portion of the power control unit 70 to supply positive power to the electronic component 30.

The second power supply lead pin 722 is vertically formed in the lower middle portion of the power control unit 70 so as to be positioned between the fixing pin 710 and the first power supply lead pin 721. It is possible to supply negative power to (30).

The other side of the upper side of the power supply lead pin 720 may be provided with a switch 723 that may be made of a known toggle switch or slide switch.

The operator operates the switch 723 in the ON state, and the electronic component 30 is connected to the power supply lead pin 721 and the second power supply lead pin 722 of the power control unit 70. In this case, the positive power and the negative power can be supplied.

An operator manipulates the switch 723 in an OFF state to operate the electronic component 30 through the first power supply lead pin 721 and the second power supply lead pin 722 of the power control unit 70. It can block the supply of (+) power and (-) power respectively.

FIG. 10 is a front view schematically showing the connector 80, and FIG. 11 is a bottom view of FIG.

Next, the connection connector 80 may be further provided as shown in FIGS. 10 and 11.

FIG. 12 is a plan view schematically illustrating a state in which a connection connector 80 is installed between an upper portion of one breadboard member 10 and an upper portion of the other breadboard member 20.

As shown in FIG. 12, the connection connector 80 may be supplied to the power supply board 220 through the power control unit 70 so that the power supplied to the power supply board 120 may be supplied to the other power supply board 220. It is provided between the upper portion of the one side power supply board 120 and the upper side of the other power supply board 220 can connect the one side power supply board 120 and the other side power supply board 220. have.

The connection connector 80 may include a substrate 810 and a plurality of power supply lead pins 820.

As shown in FIG. 12, the substrate 810 may be horizontally provided between an upper portion of the one side power supply board 120 and an upper portion of the other side power supply board 220.

As shown in FIGS. 10 and 11, the plurality of power supply lead pins 820 may be vertically integrally formed on one lower side of the substrate 810 and the other lower side of the substrate 810.

The plurality of power supply lead pins 820 may be composed of one power supply lead pin 821 and the other power supply lead pin 822 as shown in FIGS. 10 and 11.

The one side power supply lead pin 821 is the first one side power supply lead pin 821a and the second one side power supply lead pin 821b, and the third one side power supply lead pin 821c and the fourth one side power supply lead pin. 821d.

The first one side power supply lead pin 821a and the second one side power supply lead pin 822b are integrally formed on one side of the lower surface of the substrate 810 while maintaining a predetermined distance in the front and rear directions of the substrate 810. Can be vertically formed.

The third one-side power supply lead pin 821c and the fourth one-side power supply lead pin 821d are disposed inwardly of the first one-side power supply lead pin 821a and the second one-side power supply lead pin 821b. The substrate 810 may be vertically integrally formed on one side of the lower surface of the substrate 810 while maintaining a predetermined distance in the front and rear directions of the substrate 810.

The other power supply lead pin 822 may include a first power supply lead pin 822a, a second power supply lead pin 822b, a third power supply lead pin 822c, and a fourth power supply lead pin. 822d.

The first other power supply lead pin 822a and the second other power supply lead pin 822b are integrally formed on the other side of the lower surface of the substrate 810 while maintaining a predetermined distance in the front and rear directions of the substrate 810. Can be vertically formed.

The third other power supply lead pin 822c and the fourth other power supply lead pin 822d are positioned inward of the first other power supply lead pin 822a and the second other power supply lead pin 822b. In order to maintain a predetermined distance in the front and rear direction of the substrate 810 may be integrally formed vertically on the other side of the lower surface of the substrate 810.

The lower surface of the substrate 810 may be provided with a connection line 830 including a conductive line for electrically connecting the one power supply lead pin 821 and the other power supply lead pin 822.

The connection line 830 may include a first connection line 831, a second connection line 832, a third connection line 833, and a fourth connection line 834.

The first connection line 831 is integrally provided between the first one side power supply lead pin 821a and the first other side power supply lead pin 822a and is supplied to the first one side power supply lead pin 821a. The positive power may be supplied to the first other power supply lead pin 822a.

The second connection line 832 is integrally provided between the second one side power supply lead pin 821b and the second other power supply lead pin 822b, and is supplied to the second one side power supply lead pin 821b. The positive power may be supplied to the second power supply lead pin 822b.

The third connection line 833 is integrally provided between the third one side power supply lead pin 821c and the third other side power supply lead pin 822c and is supplied to the third one side power supply lead pin 821c. The negative power may be supplied to the third power supply lead pin 822c.

The fourth connection line 834 is integrally provided between the fourth one side power supply lead pin 821d and the fourth other side power supply lead pin 822d, and is supplied to the fourth one side power supply lead pin 821d. The negative power may be supplied to the fourth other power supply lead pin 822d.

Next, as shown in FIGS. 1 and 12, lead insertion holes 90 are arranged at predetermined intervals on an upper surface of the one side power supply board 120 and an upper surface of the other side power supply board 220, respectively. Can be formed.

The lead insertion hole 90 has one side lead insertion hole 910 formed at a predetermined interval on the upper surface of the one side power supply board 120; The other side lead insertion hole 920 formed at a predetermined interval on the upper surface of the other side power supply board 220;

The one side lead insertion hole 910 may include a first one side lead insertion hole 911 and a second one side lead insertion hole 912.

The first one-sided lead insertion hole 911 is connected to one side of the upper surface of the one-side power supply board 120 at an interval in a front and rear direction at a predetermined interval so that the one-side electronic component 310 is connected to the power interruption unit 70. ) Can supply positive power.

The first power supply lead pin 302a of the electronic component 310 may be inserted into the first one side lead insertion hole 911.

In addition, a first power supply lead pin 721 of the power control unit 70 may be inserted into the first one side lead insertion hole 911.

In addition, a first one side power supply lead pin 821a and a second one side power supply lead pin 821b of the connection connector 80 may be inserted into the first one side lead insertion hole 911, respectively.

The second one side lead insertion hole 912 is the other side of the upper surface of the one side power supply board 120 so as to be located between the first one side lead insertion hole 911 and one side of the one side component support board 110. The array connection is formed at a predetermined interval in the front and rear directions to supply negative power to the electronic component 310 through the power control unit 70.

The second power supply lead pin 302b of the electronic component 310 may be inserted into the second one side lead insertion hole 912.

In addition, a second power supply lead pin 722 of the power control unit 70 may be inserted into the second one side lead insertion hole 912.

In addition, a third one side power supply lead pin 821c and a fourth one side power supply lead pin 821d of the connection connector 80 may be inserted into the second one side lead insertion hole 912, respectively.

The other lead inserting hole 920 may include a first lead inserting hole 921 and a second lead inserting hole 922.

The first lead insertion hole 921 is connected to one side of the upper surface of the other power supply board 220 at an interval in the front and rear direction at regular intervals to connect the power interruption unit 70 and the connection connector 80. It is possible to supply (-) power to the other electronic component 320 through.

The second power supply lead pin 302b of the other electronic component 310 may be inserted into the first lead insertion hole 921.

In addition, the third other power supply lead pin 822c and the fourth other power supply lead pin 822d of the connection connector 80 may be inserted into the first other lead insertion hole 921, respectively.

The second other lead inserting hole 922 is the other side of the upper surface of the other power supply board 220 so as to be located between the first other lead inserting hole 921 and the other side of the other part supporting board 210. The array connection is formed at a predetermined interval in the front and rear directions to supply (+) power to the other electronic component 320 through the power control unit 70 and the connection connector 80.

The first power supply lead pin 302a of the other electronic component 310 may be inserted into the second lead insertion hole 922.

In addition, the first other power supply lead pin 822a and the second other power supply lead pin 822b of the connection connector 80 may be inserted into the second other lead insertion hole 922, respectively.

Next, as shown in FIGS. 1 and 12, a plurality of lead insertion holes 400 may be formed at predetermined intervals on the upper surfaces of the one side component support board 110 and the other side component support board 210, respectively. Can be.

A plurality of the lead insertion hole 400 is the other side and the other side of the one side component support board 110 at one side of the one side component support board 110 and the other side component support board 210, respectively. The supporting board 210 may be arranged to be connected to the other direction at regular intervals.

Fixing pins 301 of the electronic component 30 and fixing pins 710 of the power control unit 70 may be inserted into the lead insertion holes 400, respectively.

Next, as shown in FIG. 9, the upper surface of the adhesive layer 50 of the support plate 40 may be provided with a power supply unit 100 including a battery and a driving module 200 including a driving motor.

The power supply unit 100 may be attached to the rear side of one side upper surface of the adhesive layer 50 of the support plate 40.

The power supply unit 100 may supply power to the power control unit 70 through a connection line (not shown) including a wire or the like.

The driving module 200 may be attached to the front side of one side of the adhesive layer 50 of the support plate 40.

The driving module 200 may be driven by the control of the electronic component 30 such as a control IC in a state in which the driving module 200 is connected to the electronic component 30 such as a control IC through a connection line (not shown) including a wire. have.

One side of the support plate 40 and the support plate 40 to the extent that the power supply unit 100 and the driving module 200 can be more easily provided on one side upper surface of the adhesive layer 50 of the support plate 40, respectively. The left and right spacing between the other side of (D ₁ of FIG. 9),

It may be formed larger than the left and right spacing (D ₂ of FIG. 9) between one side of the one breadboard member 10 and the other side of the other breadboard member 20.

According to the present invention configured as described above, the other breadboard member 20 is provided on the other side of the one breadboard member 10 so as to be symmetrical with the one breadboard member 10. 10) and the other breadboard member 20 can be installed to be more easily symmetrical with each other the electronic component 30, as well as the power supply of one of the power supply unit 100 through the connection connector 80 There is an advantage that it can be more easily supplied to both the one breadboard member 10 and the other breadboard member 20.

10; One side breadboard member, 20; The other breadboard member,
30; Electronic parts.

Claims (9)

One side breadboard member 10;
And the other breadboard member 20 provided on the other side of the breadboard member 10 to be symmetrical with the breadboard member 10.
The breadboard for robot training, characterized in that the electronic component 30 is installed on the one breadboard member 10 and the other breadboard member 20 so as to be symmetric with each other.
The method of claim 1,
The electronic component 30 includes one electronic component 310 installed at the one breadboard member 10;
And the other electronic component 320 installed in the other breadboard member 20 so as to be symmetrical with the one electronic component 310.
The one breadboard member 10 includes one side support board 110 for supporting the one electronic component 310;
One side power supply board 120 provided at one side of the one side component support board 110 to supply power to the one electronic component 310;
The other breadboard member 20 is provided on the other side of the one side component support board 110 and the other component support board 210 for supporting the other electronic component 320;
The other board for power supply provided on the other side of the other component support board 210, the other power supply board 220 for supplying power to the other electronic component (320).
The method of claim 2,
Robot board bread board, characterized in that the support plate 40 is provided for supporting the one side bread board member 10 and the other bread board member 20.
The method of claim 3, wherein
Robot board breadboard, characterized in that the adhesive layer 50 is formed on the support plate 40.
The method of claim 3, wherein
Robot board breadboard, characterized in that the adhesive layer 50 is formed on the top of the support plate 40 and the bottom of the support plate 40, respectively.
The method according to claim 4 or 5,
Robotic breadboard, characterized in that the release paper 60 is attached to the adhesive layer (50).
The method of claim 3, wherein
A power intermittent unit 70 provided on the one side power supply board 120 to control whether power is supplied to the one side power supply board 120 and the other side power supply board 220;
The upper portion of the one side power supply board 120 and the power so that the power supplied to the one side power supply board 120 through the power intermittent portion 70 can be supplied to the other side power supply board 220. It is provided between the upper side of the other power supply board 220, the connection connector 80 for connecting the one side power supply board 120 and the other side power supply board 220; Breadboard for Robot Education.
8. The method of claim 7,
Lead insertion hole 90 consisting of one lead insertion hole 910 and the other lead insertion hole 920 on the upper surface of the one side power supply board 120 and the other side of the power supply board 220. Are arranged at regular intervals,
The one side lead insertion hole 910 is formed at a predetermined interval in the front and rear direction on one side of the upper surface of the one side power supply board 120 to the one side electronic component 310 through the power control unit 70 ( +) A first one-side lead insertion hole 911 for supplying power;
The second work side is formed on the other side of the upper surface of the one side power supply board 120 at regular intervals in the front and rear direction to supply (-) power to the one electronic component 310 through the power control unit 70. Lead insertion hole 912; made of,
The other lead insertion hole 920 is formed at a predetermined interval in the front-rear direction on one side of the upper surface of the other power supply board 220 so that the other side through the power interruption unit 70 and the connection connector 80. A first other lead insertion hole 921 for supplying a negative power to the electronic component 320;
It is arranged on the other side of the upper surface of the other power supply board 220 at a predetermined interval in the front-rear direction to the other electronic component 320 through the power control unit 70 and the connection connector 80 (+). A robot training breadboard, comprising: a second other side lead insertion hole 922 for supplying power.
8. The method of claim 7,
A power supply unit 100 connected to the support plate 40 and the power control unit 70;
Robot module bread board, characterized in that the; is provided with a drive module 200 driven by the control of the electronic component (30).

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