KR101683004B1 - Method and Apparatus for Generation Code Using Logic Cube - Google Patents

Abstract

The present embodiment includes a cube attaching portion in which an insertion space for mounting a plurality of logic cubes is formed. When the mounting of the logic cubes in the insertion space is recognized, the cube information is sensed, and code information The present invention relates to a method and an apparatus for generating a code using a logic cube, which can be easily applied to various electronic apparatuses, and which enables a user to more easily generate commands for controlling the apparatus.

Description

[0001] The present invention relates to a method and an apparatus for generating a code using a logic cube,

The present embodiment relates to a method and an apparatus for generating a code using a logic cubes.

The contents described in this section merely provide background information on the embodiment of the present invention and do not constitute the prior art.

Generally, as a method of transmitting specific information by operation and control of an electronic device, a method of directly inputting specific information by a user using an input device connected to the device such as a keyboard or a console is mainly used.

2. Description of the Related Art [0002] In recent years, various input devices such as a touch pad and a touch screen have been adopted in electronic devices, and electronic devices have provided a user interface on their own and can recognize commands by sensing the operation of a finger or a pen. In addition, as the use of bar codes, QR codes, RF tags, and the like is becoming common, the electronic device further includes a recognition device for recognizing a bar code, a QR code, and an RF tag, And read it.

In some electronic devices, information transmission methods using an input device connected to a device such as a keyboard or a console are mainly used because of the accuracy and compatibility of information transmission. Accordingly, there is a need for a new information delivery method that can be easily applied to various electronic apparatuses, and can more easily generate commands for controlling the apparatuses.

The present embodiment is characterized in that the code generating and processing apparatus including the cube mounting portion in which the insertion space for mounting a plurality of logic cubes is formed detects the cube information when mounting of the logic cubes in the insertion space is recognized, The present invention provides a code generating method and apparatus that can easily be combined with various electronic apparatuses and generate commands for controlling the apparatus more easily by users. have.

The present embodiment relates to a code generation and processing apparatus, comprising: a cube mounting portion in which an insertion space for mounting a plurality of logic cubes is formed; A sensing unit provided on one side of the logic cubes in contact with the logic cubes in the insertion space and sensing cube information corresponding to the logic cubes from the logic cubes when the logic cubes are mounted on the cube mounting unit; And a code control unit for generating code information according to the arrangement of the logic cubes in the cube mounting unit according to the detection result of the cube information and transmitting the code information to the main module to control the main module to execute the code information And a code generating and processing device.

According to another aspect of the present invention, there is provided a method of generating and processing code by a code generating and processing apparatus including a cube mounting portion in which an insertion space for mounting a plurality of logic cubes is formed, Detecting the cube information corresponding to the logic cubes from the logic cubes when it is recognized; And generating code information according to an arrangement of the logic cubes in the cube mounting unit according to the detection result of the cube information and transmitting the code information to the main module to control the main module to execute the code information And a method of generating and processing a code.

According to the present embodiment, the code generating and processing apparatus including the cube mounting portion in which the insertion space for mounting a plurality of logic cubes is formed can detect the cube information when mounting of the logic cubes in the insertion space is recognized, It is possible to easily add the code information to the various electronic devices and to generate the commands for controlling the devices more easily by the users.

In addition, the present embodiment allows code information to be easily generated even by a simple operation of mounting a logic cube to a code generating and processing apparatus, thereby enabling intuitively generating code information and confirming an operation state. Thus, There is an effect that it can be used as a means for use.

1 is a block diagram schematically showing a code generation and processing system according to the present embodiment.
2 is a block diagram schematically showing a code generation and processing apparatus according to the present embodiment.
3 is a flowchart for explaining a code generation and processing method according to the present embodiment.
4 is an exemplary view illustrating a corresponding logic code for each cube information and cube information according to the present embodiment.
5 is an exemplary diagram illustrating the function of the logic code according to the present embodiment.
6 is an exemplary view illustrating code information according to the arrangement of logic cubes according to the present embodiment.
7A is an exemplary diagram illustrating a code generation and processing method according to the present embodiment.
7B is an exemplary diagram illustrating an output form of progress information according to the execution of the code information according to the present embodiment.
8 is an exemplary view illustrating the shape of a magnet and a self-body for assisting engagement between a code generation and processing apparatus and a logic cubes according to the present embodiment.
9 is a circuit diagram of a logic cube according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a code generation and processing system according to the present embodiment.

1, the code generation and processing system according to the present embodiment includes a code generation and processing apparatus 100, a logic cubes 110, a main module 120, and a user terminal 130. [ In this embodiment, the code generation and processing system includes only the code generation and processing apparatus 100, the logic cubes 110, the main module 120, and the user terminal 130. However, the present invention is not limited thereto, Some elements may be omitted or other elements may be additionally included according to the embodiment. In this embodiment, it is assumed that the logic cubes 110 and the main module 120 are implemented as separate components. However, according to the embodiment, the code generation and processing apparatus 100 includes the logic cubes 110 and the main modules 120. [ (120) as a component.

The code generation and processing apparatus 100 is an apparatus for generating and processing code information for controlling the state and operation of the main module 120 based on a logic cube 110 mounted on the code generation and processing apparatus 100 . That is, the code generation and processing apparatus 100 includes means for mounting a plurality of logic cubes 110, and when the mounting of the logic cubes 110 is recognized through the corresponding means, the code generating and processing apparatus 100 outputs the cubic information from the logic cubes 110 And generates code information.

The code generating and processing apparatus 100 includes a cube mounting unit 200 provided on an upper surface of a main body of the code generating and processing apparatus 100 and having an insertion space 140 for mounting a plurality of logic cubes 110 do. A user of the code generation and processing apparatus 100 according to the present embodiment can easily attach and detach the logic cube 110 in the code generation and processing apparatus 100 using the cube mounting unit 200, The generation and processing apparatus 100 may generate code information according to the arrangement of the logic cubes 110 in the cube mounting unit 200 and provide the code information to the main module 120. [

The cube mounting part 200 is formed such that the depth of the insertion space 140 is smaller than the height of the logic cube 110 so that the logic cube 110 mounted in the insertion space 140 can be easily attached and detached.

The cube mounting unit 200 is installed at predetermined intervals in the insertion space 140 in a direction perpendicular to the depth direction of the insertion space 140 so that the cube mounting unit 200 can be mounted at predetermined intervals between the logic cubes 110 in the insertion space 140 A protruded protrusion 142 may be further provided. The spacing between the additional protrusions 142 provided in the cube mounting part 200 is determined according to the position of the recognition end provided in the code generating and processing device 100 and the logic cube 110. [ That is, in the case of this embodiment, the cube mounting unit 200 includes the protrusion 142 protruding at a predetermined interval in the insertion space 140, so that the logic cube 110 is mounted on the cube mounting unit 200, The position of the sensing unit 210 provided on one side of the insertion space 140 in the device 100 and the position of the recognition unit provided on one side of the logic cubes 110 can be accurately matched with each other. Thus, in this embodiment, the physical and electrical connections between the code generation and processing apparatus 100 and the logic cubes 110 can be performed more smoothly.

It is also contemplated that the logic cubes 110 may be mounted on the lower side of the logic cubes 110 to assist in fastening between the code generation and processing apparatus 100 and the logic cubes 110, And the corresponding surface 141 corresponding to the lower surface may be configured to have a magnet and a magnetic body, respectively, or may have a magnet having different polarities.

The code generating and processing apparatus 100 detects the cube information from the logic cubes 110 when the mounting of the logic cubes 110 in the cube mounting unit 200 is recognized and generates code information based on the information.

Hereinafter, a more specific method of generating and processing code using the logic cube 110 according to the present invention will be described.

The code generation and processing apparatus 100 detects cube information corresponding to the logic cubes 110 from the logic cubes 110 when mounting of the logic cubes 110 in the cube mounting unit 200 is recognized. At this time, the cube information is preferably, but not necessarily limited to, the value of the resistor provided in the logic cubes 110 in order to distinguish logic codes corresponding to the logic cubes 110 from other logic codes .

The code generation and processing apparatus 100 generates code information according to the arrangement of the logic cubes 110 in the cube mounting unit 200 according to the detection result of the cube information. On the other hand, the code generation and processing apparatus 100 matches and stores corresponding logic codes for each cube information. That is, the code generating and processing apparatus 100 searches the logic code for each cube information according to the detection result of the cube information, and calculates a corresponding logic code corresponding to the corresponding cube information. Thereafter, the code generation and processing apparatus 100 generates the code information by combining the retrieved corresponding logic codes according to the arrangement order of the logic cubes 110 in the cube mounting unit 200.

On the other hand, if no new cube information is detected for a predetermined time after the cube information is detected, the code generating and processing device 100 generates code information using the detected cube information.

In FIG. 1, the code generation and processing apparatus 100 specifies that the corresponding logic codes retrieved corresponding to the cube information are combined according to the arrangement order of the logic cubes 110 in the cube mounting unit 200 to generate code information But the present invention is not limited thereto. For example, the code generation and processing apparatus 100 may generate the sensed cube information as code information according to the mounting of the logic cubes 110. [

The code generation and processing apparatus 100 transmits the generated code information to the main module 120, through which the main module operates to execute the code information. On the other hand, the code generation and processing apparatus 100 may transmit only the code information when transmitting the code information to the main module 120. However, when receiving the execution command for the corresponding code information using the user interface unit 230, Command may be included in the code information and transmitted to the main module 120.

Thereafter, the code generation and processing apparatus 100 generates progress information on the corresponding logic code currently being processed based on the code information received from the code generation and processing apparatus 100 by the main module 120 from the main module 120 Receive. At this time, the progress information is preferably a corresponding logic code currently being processed in the main module 120 among a plurality of corresponding logic codes included in the code information, but is not limited thereto.

The code generation and processing apparatus 100 operates such that progress information provided from the main module 120 is output to the user. The code generation and processing apparatus 100 according to the present embodiment transmits the progress information provided from the main module 120 to the corresponding logic cubes 110 so that the corresponding logic cubes 110 are connected to the logic cubes 110 So that progress information is displayed using the light emitting unit. For example, when receiving the progress information, the logic cube 110 drives a light emitting portion (color LED) to identify a corresponding logic code currently being processed by the user of the code generation and processing apparatus 100 in the main module 120 .

In addition, the code generation and processing apparatus 100 transmits the generated code information to the user terminal 130. The user terminal 130 according to the present embodiment provides the received code information to the main module 120 using a predetermined user interface, When receiving the information, the reconfiguration code information reflecting the modification information is generated and transmitted to the main module 120.

Meanwhile, the code generation and processing apparatus 100 according to the present embodiment may be implemented in a form including the main module 120 as a component according to the embodiment. In this case, the code generation and processing apparatus 100 transmits the reconfiguration code information received from the user terminal 130 to the main module 120, and controls the main module 120 to execute the reconfiguration code information.

The logic cube 110 has a unique logic symbol displayed on the upper side of the body and is used for electrical connection with the code generating and processing device 100 on one side which is in contact with the cube mounting part 200 when mounted on the cube mounting part 200. [ And a recognition terminal. The code generation and processing apparatus 100 according to the present exemplary embodiment includes a logic cube 110 and a logic cube 110. When the logic cube 110 is mounted, Can be detected as the cube information.

The logic cube 110 further includes a light emitting portion inside the logic cube 110. When the progress information is received from the code generating and processing device 100, the logic cube 110 displays progress information using the light emitting portion. For example, when the progress information is received from the code generation and processing apparatus 100 using the recognition stage, the logic cube 110 also generates a code (e.g., 100 to identify the corresponding logic code that is currently being processed in the main module 120. For this, the logic cubes 110 according to the present embodiment may be implemented with transparent or semitransparent materials, but the present invention is not limited thereto.

The logic cube 110 may be embodied as a magnet or magnetic material on its lower side to assist in coupling with the code generation and processing device 100.

The main module 120 receives the code information generated from the code generation and processing apparatus 100 and executes the code information. That is, the main module 120 sequentially performs operations on the corresponding logic codes included in the code information based on the code information received from the code generating and processing apparatus 100. [ To this end, the main module 120 previously grasps and stores the functions of the logic code. The main module 120 may directly execute the code information when receiving the code information from the code generation and processing apparatus 100. The main module 120 may receive the code information from the user through a user interface (not shown) When the execution command for the information is received, the corresponding code information may be executed.

The main module 120 can be interlocked with various devices installed on the site such as a cooling / heating air conditioning simulation device (BEMS), a power linked simulation device, and a training logic simulation device. By executing code information, it is possible to control the states and operations of the devices.

The main module 120 sequentially performs operations on the corresponding logic codes included in the code information based on the code information received from the code generation and processing apparatus 100, And transmits the progress information to the code generation and processing apparatus 100 in real time. Accordingly, the user of the code generation and processing apparatus 100 according to the present embodiment can check the progress information of the corresponding logic code currently being processed in the main module 120 in real time.

When the main module 120 receives the reconfiguration code information from the user terminal 130, the main module 120 stops performing the previous code information and newly executes the reconfiguration code information.

The user terminal 130 is a terminal capable of transmitting and receiving various data by using a communication intermediary device according to a key operation of a user. The user terminal 130 includes a tablet PC, a laptop, a personal computer (PC) A smart phone, a personal digital assistant (PDA), a mobile communication terminal, and the like.

The user terminal 130 according to the present embodiment receives the code information generated from the code generation and processing apparatus 100 and provides the received code information using a predetermined user interface (not shown). In this embodiment, the user interface on which the code information is displayed is not limited to a specific user interface, and any form can be implemented as long as the user can accurately recognize the code information provided from the code generation and processing apparatus 100. For example, the user interface may implement and provide the code information received from the code generating and processing apparatus 100 as an image of the form in which the logic cubes 110 are mounted in the actual code generating and processing apparatus 100.

The user terminal 130 can reconstruct the code information received from the code generation and processing apparatus 100 using the user interface. That is, the user terminal 130 provides a touch screen function, and through this, the code information provided using the user interface can be edited on the basis of input information input through means such as a finger or a pen. Then, the user terminal 130 transmits the generated reconfiguration code information to the main module 120. [ At this time, the user terminal 130 may transmit only the reconfiguration code information to the main module 120 when transmitting the reconfiguration code information. However, when the user terminal 130 receives an execution command for the reconfiguration code information using the user interface, Information to be transmitted to the main module 120.

2 is a block diagram schematically showing a code generation and processing apparatus according to the present embodiment.

2, the code generation and processing apparatus 100 according to the present embodiment includes a cube mounting unit 200, a sensing unit 210, a storage unit 220, a user interface unit 230, a code control unit 240 A communication unit 250, and a main module 120. [

The code generating and processing apparatus 100 includes a cube mounting unit 200, a sensing unit 210, a storage unit 220, a user interface unit 230, a code control unit 240, a communication unit 250, Module 120. However, the present invention is not limited thereto, and some components may be omitted or other components may be additionally included according to the embodiment. 2, it is assumed that the main module 120 is included as a component in the code generation and processing apparatus 100. However, the present invention is not limited to this, And may be implemented as separate components external to the processing device 100.

The cube mounting unit 200 is provided on the upper side of the main body of the code generating and processing apparatus 100 and includes an insertion space 140 for mounting a plurality of logic cubes 110 to mount the logic cubes 110 .

The cube mounting part 200 is implemented such that the depth of the insertion space 140 is smaller than the height of the logic cube 110 so that the logic cube 110 mounted in the insertion space 140 can be easily attached and detached.

The cube mounting part 200 is installed at predetermined intervals in the insertion space 140 so as to be mounted at predetermined intervals between the logic cubes 110 in the insertion space 140, A protrusion 142 may be additionally provided.

The cube mounting portion 200 is formed by mounting a logic cube 110 on a corresponding surface of the logic cubes 110 corresponding to the lower side of the logic cubes in the insertion space 140 when the logic cube 110 is mounted to assist in fastening between the code generating and processing device 100 and the logic cubes 110. [ (141) is made of a magnet or a magnetic material.

The sensing unit 210 is disposed on one side of the inserting space 140 in contact with the logic cubes 110 and more precisely when the logic cubes 110 are mounted in the inserting space 140, As shown in Fig. The sensing unit 210 may be implemented in the form of an electronic chip, but it is not limited thereto, and may be implemented in various sensors such as an optical sensor.

The sensing unit 210 senses the cube information corresponding to the logic cubes 110 from the logic cubes 110 when the logic cubes 110 are mounted on the cube mounting unit 200. At this time, the cube information is preferably, but not necessarily, the value of predetermined inherent information, for example, the resistance in the logic cube 110, in order to distinguish the logic code corresponding to the logic cube 110 from other logic codes.

The storage unit 220 stores matching logic codes corresponding to the cube information, and provides the stored logic codes as needed. A detailed description of the corresponding logic code for each cube information stored in the storage unit 220 will be described later with reference to FIG.

The user interface unit 230 receives an execution command for the code information from the user of the code generation and processing apparatus 100. Then, the user interface unit 230 transmits the received execution command to the code control unit 240. The user interface unit 230 may be implemented in the form of a button and may receive an execution command for code information using a method such as pushing a button from a user of the code generation and processing apparatus 100 . In this embodiment, the user interface unit 230 is described as being implemented in the form of a button, but the present invention is not limited thereto. Any form can be implemented as long as an execution command for code information can be input.

The code control unit 240 generates code information according to the arrangement of the logic cubes 110 in the cube mounting unit 200 according to the detection result of the cube information sensed by the sensing unit 210. [ The method of generating the code information according to the detection result of the cube information is the same as the method of generating the code information according to the result of detection of the cube information by the code generation and processing apparatus 100 described above, A detailed description thereof will be omitted.

The code control unit 240 searches for the logic code for each cube information stored in the storage unit 220 according to the detection result of the cube information, and calculates a corresponding logic code corresponding to the corresponding cube information. Then, the code control unit 240 combines the searched corresponding logic codes according to the arrangement order of the logic cubes 110 in the cube mounting unit 200 to generate code information.

The code control unit 240 transmits the generated code information to the main module 120 to control the main module 120 to execute the code information. At this time, the code control unit 240 transmits the code information to the main module 120, and controls the main module 120 to sequentially perform operations on the corresponding logic code based on the code information, 120 to transmit control instructions in real time to transmit progress information for the corresponding logic code currently being processed.

Thereafter, when the progress information is provided from the main module 120, the code control unit 240 operates so that progress information is output to the user. For example, when the progress information is received from the main module 120, the code controller 240 transmits the progress information to the corresponding logic cubes 110 so that the corresponding logic cubes 110 use the internal light- It is possible to control to display progress information.

Also, the code control unit 240 transmits the generated code information to the user terminal 130. The user terminal 130 according to the present embodiment provides the received code information to the main module 120 using a predetermined user interface. When the user terminal 130 receives the modification information for the code information from the user using the user interface, And transmits the generated reconfiguration code information to the main module 120.

The communication unit 250 includes wired / wireless communication means such as Bluetooth or the like, and transmits / receives data to / from the main module 120 and the user terminal 130 through the wired / wireless communication means.

The main module 120 receives the code information generated from the code control unit 240 and executes the code information. Meanwhile, the main module 120 shown in FIG. 2 performs the same functions performed by the main module 120 shown in FIG. 1, and a detailed description thereof will be omitted.

When the main module 120 receives the reconfiguration code information from the user terminal 130, the main module 120 stops performing the previous code information and newly executes the reconfiguration code information.

3 is a flowchart for explaining a code generation and processing method according to the present embodiment.

The code generation and processing method according to the present embodiment first determines whether the code generation and processing apparatus 100 receives the logic cubes 110 from the logic cubes 110 when the mounting of the logic cubes 110 in the cube mounting unit 200 is recognized, And the cube information corresponding to the cube information is detected (S310). In this case, the cube information is preferably a value of predetermined resistance, for example, a value of resistance in the logic cube 110 in order to distinguish the logic code corresponding to the logic cube 110 from other logic codes. However, the present invention is not limited thereto.

The code generating and processing apparatus 100 generates code information according to the arrangement of the logic cubes 110 in the cube mounting unit 200 according to the detection result of the cube information sensed at step S310 at step S320. In step S320, the code generation and processing apparatus 100 searches the logic code for each cube information according to the detection result of the cube information, and calculates a corresponding logic code corresponding to the corresponding cube information. Thereafter, the code generation and processing apparatus 100 generates the code information by combining the retrieved corresponding logic codes according to the arrangement order of the logic cubes 110 in the cube mounting unit 200.

The code generating and processing apparatus 100 transmits the code information generated in step S320 to the main module 120, and controls the main module 120 to execute the code information (S330). In step S330, the code generation and processing apparatus 100 generates progress information on the corresponding logic code currently being processed based on the code information received from the code generation and processing apparatus 100 by the main module 120 from the main module 120 .

The code generation and processing apparatus 100 operates such that progress information provided from the main module 120 is output to the user.

In addition, the code generation and processing apparatus 100 transmits the generated code information to the user terminal 130. The user terminal 130 according to the present embodiment provides the received code information by using a predetermined user interface. When the user terminal 130 receives the modification information for the code information from the user using the user interface, the user terminal 130 transmits the reconfiguration code information And transmits it to the main module 120. Meanwhile, the code generation and processing apparatus 100 according to the present embodiment may be implemented in a form including the main module 120 as a component according to the embodiment. In this case, the code generation and processing apparatus 100 executes the reconfiguration code information received from the user terminal 130 by using the main module 250. [

Here, steps S310 to S330 correspond to the operations of the sensing unit 210 and the code control unit 240 described above, and thus detailed description will be omitted.

4 is an exemplary view illustrating a corresponding logic code for each cube information and cube information according to the present embodiment.

When the mounting of the logic cubes 110 in the cube mounting unit 200 is recognized, the code generating and processing apparatus 100 according to the present exemplary embodiment can obtain the cube information corresponding to the logic cubes 110 from the logic cubes 110 Detection. In this case, the cube information refers to a value of the resistance in the logic cube 110 as predetermined inherent information for distinguishing the logic code corresponding to the logic cube 110 from other logic codes.

As shown in FIG. 4, the code generation and processing apparatus 100 according to the present embodiment matches and stores logic codes corresponding to cube information (chip IDs according to resistance values). Accordingly, the code generation and processing apparatus 100 searches the logic code for each cube information according to the detection result of the cube information, calculates a corresponding logic code corresponding to the corresponding cube information, and outputs the corresponding corresponding logic code to the cube mounting unit 200 in accordance with the arrangement order of the logic cubes 110. [

In FIG. 4, one resistance value of a predetermined position in the logic cube 110 corresponds to one unit code (CID1 or CID2), and the unit code is implemented as two digits. If the cube information is implemented by three-digit unit codes in order to identify one cube information, the number of resistors for each logic cube 110 matches the number of unit codes for identifying the cube information. In this case, The number of resistance per unit is three.

5 is an exemplary diagram illustrating the function of the logic code according to the present embodiment.

As shown in FIG. 5, the logic code according to the present embodiment has different functions for each logic code. Accordingly, the user of the code generation and processing apparatus 100 according to the present embodiment can generate a logic cube 110 corresponding to a specific logic code without generating a complex program design process, And the code information can be easily generated even by a simple operation of sequentially mounting the processing unit 100 and the processing unit 100. [ Thus, the code generation and processing apparatus 100 according to the present embodiment can be used as educational or play means for users of various ages.

6 is an exemplary view illustrating code information according to the arrangement of logic cubes according to the present embodiment. FIG. 6A is a first example illustrating code information according to the arrangement of logic cubes according to the present embodiment. FIG. 6B illustrates code information according to the arrangement of logic cubes according to the present embodiment. Fig. 8 is a second example of an example. Fig.

6 (a) and 6 (b), the code generation and processing apparatus 100 according to the present embodiment is configured to store the cube information detected and stored in the logic cubes 110 according to the result of detection of the cube information The corresponding logic code corresponding to the cube information is calculated by searching the logic code for each cube information, and the corresponding corresponding logic code is combined according to the arrangement order of the logic cubes 110 in the cube mounting unit 200 to generate code information.

The main module 120 executes the code information when receiving the code information from the code generation and processing apparatus 100. On the other hand, when receiving the code information according to (a) of FIG. 6, the main module 120 sequentially performs operations on the corresponding logic code based on the code information, and finally generates a pulse signal for 15 minutes. 6 (b), the main module 120 sequentially performs operations on the corresponding logic code based on the code information, and finally transmits an EOI (End Of Interval) signal every 15 minutes .

7A is an exemplary diagram illustrating a code generation and processing method according to the present embodiment.

7A, when the mounting of the logic cubes 110 is recognized, the code generating and processing apparatus 100 according to the present embodiment receives the cube information 110 corresponding to the logic cubes 110 from the logic cubes 110, Lt; / RTI > Thereafter, the code generation and processing apparatus 100 searches the logic code for each cube information according to the detection result of the cube information, calculates a corresponding logic code corresponding to the corresponding cube information, and outputs the corresponding corresponding logic code to the cube mounting unit 200 in accordance with the arrangement order of the logic cubes 110. [

Meanwhile, the code generation and processing apparatus 100 according to the present embodiment transmits the generated code information to the user terminal 130 so that the user can check and edit the code information. That is, the user terminal 130 according to the present embodiment provides the received code information by using a preset user interface, and when receiving the modification information for the code information from the user using the user interface, And generates and provides code information.

7B is an exemplary diagram illustrating an output form of progress information according to the execution of the code information according to the present embodiment. The main control module 120 controls the main module 120 to execute the code information and the main module 120 transmits the generated code information to the main module 120, Based on the code information received from the processing device 100, progress information on the corresponding logic code currently being processed.

As shown in FIG. 7B, the code generation and processing apparatus 100 according to the present embodiment operates so that progress information provided from the main module 120 is output to the user. For example, the code generation and processing apparatus 100 according to the present embodiment may transmit the progress information provided from the main module 120 to the corresponding logic cubes 110, so that the corresponding logic cubes 110 are arranged in the logic cubes It is possible to control to display the progress information using the light emitting unit provided.

8 is an exemplary view illustrating the shape of a magnet and a magnetic body for assisting in fastening between the code generation and processing apparatus 100 and the logic cube 110 according to the present embodiment. The code generation and processing apparatus 100 and the logic cubes 110 according to the present embodiment may be configured such that the logic cubes 110 and the logic cubes 110 in the insertion space 140 of the cube mounting unit 200, And a magnet and a self-body are provided on the corresponding surface 141 corresponding to the lower side of the magnet. Here, the magnet may be either a magnet arranged so that the two poles face each other on the two corresponding surfaces, or one magnet and the other magnet, but the present invention is not limited thereto.

8A is a diagram illustrating a state of coupling between a magnet of the code generation and processing apparatus 100 and a magnetic body of the logic cube 110 when the logic cube 110 is mounted in the code generating and processing apparatus 100. FIG. Fig. 8A illustrates an ideal coupling state between the magnets of the code generation and processing apparatus 100 and the magnetic bodies of the logic cubes 110. FIG.

As shown in FIG. 8A, when the magnets of the code generating and processing apparatus 100 and the magnetic bodies of the logic cubes 110 are accurately matched with each other, the detection unit (not shown) of the code generating and processing apparatus 100 210 and the position of the recognition terminal 800 of the logic cube 110 are precisely matched with each other so that mutual interlocking can be smoothly performed.

8B is a diagram illustrating the state of coupling between the magnets of the code generation and processing apparatus 100 and the magnetic bodies of the logic cubes 110 when the logic cubes 110 are installed in the code generating and processing apparatus 100. FIG. 2 is an example. FIG. 8B illustrates a case where the magnet of the code generation and processing apparatus 100 and the magnetic bodies of the logic cubes 110 are coupled in a state of being displaced from each other.

8 (b), the magnets of the code generation and processing apparatus 100 and the magnetic bodies of the logic cubes 110 are magnetically coupled to each other by an external force acting on the logic cubes 110 . In this case, since the positions of the sensing unit 210 of the code generating and processing apparatus 100 and the recognition unit 800 of the logic cubes 110 are not precisely matched with each other, have.

To this end, in the present embodiment, the sum of the width a of the magnet provided in the code generation and processing apparatus 100 and the width b of the magnetic body provided in the logic cubes 110 is provided in the logic cubes 110 Is realized in a form smaller than one width (c) of the recognition stage (800). In this case, even if the magnets of the code generating and processing apparatus 100 and the magnetic bodies of the logic cubes 110 are coupled to each other in the state of being displaced from each other (the first position or the second position) The recognition unit 800 of the logic cube 110 and the recognition unit 800 of the logic cube 110 can be positioned within mutually detectable ranges, (110) can be interlocked with each other.

8 illustrates a case where the number of recognition units 800 provided on one side of the logic cube 110 is two, the number of recognition units 800 on one side may vary depending on the number of recognizable unit codes Three cases can be realized. In addition, two recognition terminals 800 may be provided on one side of the logic cube 110, and two recognition terminals 800 may be provided on the opposite side of one side of the logic cube 110, respectively.

The magnet and magnetic body as shown in FIG. 8 may be mounted on the sensing unit 210 of the code generation and processing apparatus 100 when the logic cubes 110 are freely movable left and right in the insertion space 140 without protrusions. And the recognition end 800 of the logic cube 110 can be easily matched.

9 is a circuit diagram of the logic cubes 110 according to the present embodiment.

9, the internal circuitry of the logic cube 110 according to the present embodiment is interlocked with the sensing unit 210 of the code generating and processing apparatus 100 and includes the code generating and processing apparatus 100 and the logic cubes A resistor 810 connected to the recognition terminal 800 and provided for each cube information recognition unit 810 for sensing the unique cube information of the logic cube 110, A light emitting unit 820 configured to drive the LED device to display progress information to a user when the progress information is received from the code generation and processing apparatus 100, And a user input unit 830 for inputting input information by using a method such as the following.

9, when it is desired to detect the cube information of the logic cubes 110, the code generating and processing apparatus 100 reads the cube information from the first recognition stage 801 to the second recognition stage 802 and the third recognition stage 803 ), And detects the cube information by detecting the resistance value, respectively.

When the code generating and processing apparatus 100 receives the progress information for the corresponding logic code from the main module 120, the first recognition stage 801 from the second recognition stage 802 and the third recognition stage 803, So that the light emitting portion 820 is operated.

If the user's push input to the user input 830 occurs when the main module 120 operates a corresponding logic code that needs to receive user input during operation of the code information, The device 100 senses the parallel connected resistors in the logic cube 110 by flowing current from the first recognition stage 801 to the second or third recognition stage 802 or 803 and generates a corresponding logic code To the main module 120.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: Code generation and processing device 110: Logic cube
120: main module 130: user terminal
140: insertion space 142: protrusion
200: cube mounting part 210: sensing part
220: storage unit 230: user interface unit
240: code control unit 250: communication unit
800: Acknowledgment end 810: Resistance
820: light emitting portion 830: user input portion

Claims (15)

A code generation and processing apparatus comprising:
A cube mounting portion having an insertion space for mounting a plurality of logic cubes;
A sensing unit provided on one side of the logic cubes in contact with the logic cubes in the insertion space and sensing cube information corresponding to the logic cubes from the logic cubes when the logic cubes are mounted on the cube mounting unit; And
Generating the code information by combining the corresponding logic codes found corresponding to the cube information according to the arrangement order of the logic cubes and transmitting the code information to the main module to control the main module to execute the code information, A code controller for controlling the main module to transmit progress information on a corresponding logic code currently being processed in the code information in real time when executing code information,
And a code generator for generating the code. The method according to claim 1,
And a magnet on at least one of a lower surface of the logic cube and a corresponding surface corresponding to a lower surface of the logic cube in the insertion space to assist in fastening between the logic cube and the cube mounting portion. Generating and processing device. 3. The method of claim 2,
And a second magnetic material including a magnet or a magnetic material on the other surface, wherein the first magnetic material includes a magnet on a lower surface of the logic cube and on one surface of the corresponding surface,
Wherein the sum of the width of the first magnetic material and the width of the second magnetic material is smaller than the width of the recognition end of the logic cubes. The method according to claim 1,
The depth of the insertion space
Wherein the height of the logic cubes is smaller than the height of the logic cubes to facilitate detachment of the logic cubes mounted in the insertion space. The method according to claim 1,
The cube-
Further comprising protrusions protruding in a direction perpendicular to a depth direction of the insertion space at predetermined intervals in the insertion space so as to be mounted at predetermined intervals between the logic cubes in the insertion space . The method according to claim 1,
The cube information includes:
And the logic code corresponding to the logic cubes is predetermined unique information for distinguishing the logic code corresponding to the logic cubes from the other logic codes. The method according to claim 6,
The cube information includes:
And a value of a resistance in the logic cube. The method according to claim 1,
Further comprising a storage unit for storing matching logic codes corresponding to the cube information,
Wherein the code control unit searches the logic code according to the detection result of the cube information and calculates a corresponding logic code corresponding to the cube information. delete The method according to claim 1,
The code control unit,
And controls the progress information to be output to the user. 11. The method of claim 10,
Wherein the logic cubes further include a light emitting portion inside the logic cubes,
Wherein the code control unit transmits the progress information to the corresponding logic cubes when the progress information is received and controls the corresponding logic cubes to display the progress information using the light emitting unit. Device. The method according to claim 1,
The code control unit transmits the code information to the user terminal,
Wherein the user terminal generates the reconfiguration code information reflecting the modification information when the modification information for the code information is received from the user interface by providing the code information using a predetermined user interface, And transmits the generated code to the main module. 13. The method of claim 12,
The user terminal comprises:
Wherein when receiving an execution command for the reconfiguration code information using the user interface, the execution command is included in the reconfiguration code information and is transmitted to the main module. The method according to claim 1,
The code generation and processing apparatus further includes a main module that receives the code information from the code control unit and executes the code information,
The code control unit transmits the code information to the user terminal,
Wherein the main module executes the reconfiguration code information when receiving the reconfiguration code information reconstructing the code information from the user terminal. CLAIMS 1. A method of generating and processing code by a code generation and processing device including a cube mounting portion, a sensing portion, and a code control portion in which an insertion space for mounting a plurality of logic cubes is formed,
Sensing the cube information corresponding to the logic cubes from the logic cubes when the sensing unit recognizes mounting of the logic cubes in the insertion space; And
The code control unit combines the corresponding logic codes found corresponding to the cube information according to the arrangement order of the logic cubes in the cube mounting unit to generate code information and transmits the code information to the main module, Controlling the main module to transmit progress information on the corresponding logic code currently being processed in the code information in real time when the code information is executed,
Wherein the code generation and processing method comprises:

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