KR101622739B1 - A wiring guidance system and method using a mobile device - Google Patents

Abstract

The present invention relates to a wire guidance system and method using a mobile device, and is for searching and guiding contacts within a terminal at one time according to a wiring list of a DB in a field without a basic infrastructure using a wireless terminal.
To this end, the present invention provides a cabling / wiring system including a simplified wiring list design DB for each construction section, comprising: a display element array composed of a plurality of display element units connected to respective contacts in a terminal of a wiring- A wire tag which is attached to each wire in the cable and holds cable information and wire information for identifying each cable and wire, and transmits a wire tag recognized by the wireless terminal, wirelessly transmitting the device information to the wireless terminal, And the in-terminal contact information corresponding to the device information and the wire information in the wiring list of the device, and displays the in-terminal contact information on the basis of the retrieved in-terminal contact information And a wireless terminal for controlling the device controller, System and method thereof, so that cable and wiring work at a construction site such as a nuclear power plant can be performed conveniently and efficiently.

Description

Technical Field [0001] The present invention relates to a wiring guidance system and a method using a mobile device,

The present invention relates to a wiring guiding system and method using a mobile device, and more particularly, to a wiring guiding system using a mobile device and a method thereof, more particularly, ) Is shortened for each section and is stored in a wireless terminal such as a smart phone, a tag is attached to each wire, an LED is connected to each of the terminals in the device one by one, and the wireless terminal is moved and stored By recognizing the wire according to the wiring list and driving the LED corresponding thereto, the terminal ID and the contact ID to be wired can be searched at a time by a single check method in the terminal so that the wiring position can be easily found, And cables in nuclear power plants where there is a wire and infrastructure such as telecommunication is lacking. Following this connecting operation is convenient, according to the wiring guide system and method using a mobile device that enables be made efficiently.

In general, the design, manufacture and connection of power cables and wires in the construction and construction of electric power should be done by designers (for example, KEPCO in case of nuclear power plant construction) Point-to-cable-wire connection database is created at the design stage), and then the device manufacturer manufactures and supplies the equipment according to the design drawing of the designer, and the cabling company performs tagging on each wire according to the design drawing After the implementation, it will be delivered.

The construction contractor installs the equipment and the supplied cable according to the design plan, and the electric contract subcontractor performs the wiring using the installed equipment and cable.

However, these cables are about 70,000 units per nuclear power plant, and about 20,000 units are required for cable / wire wiring. The number of terminal points to be connected per unit is from a few to a maximum of 280 In actual cable / wire wiring work, there is a possibility of erroneous wiring because the work must be performed while looking at the connection drawing for each device in the design database.

In addition, due to the nature of the construction site in general, electrical and communication infrastructures are not generally installed at the cabling / wiring work site. Therefore, in order to perform cabling / wiring connection to the equipment at the construction site, There was a hassle that I had to go out with.

In recent years, terminals equipped with various functions have been introduced due to the development of smart mobile terminals. Depending on the terminal, information on design data or drawings can be edited or separated in a desired form, It is equipped with various types of functions that can store information in short.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for controlling a wiring list of a device in accordance with the characteristics of a construction site And stores it in a wireless terminal such as a smart phone, attaches a tag to each wire in the cable so that the wireless terminal can recognize the wire, and connects a display element corresponding to each contact of the terminal inside the device one- It is possible to recognize the device and the tag of each wire according to the ring list, to directly search the position of the contact point within the terminal by driving the display element at a time, and to find the corresponding wiring position, Cable and wire connection work is convenient and efficient It intended to provide a wire guide system and method using a mobile device to be able to be made.

In order to achieve the above object, according to an embodiment of the present invention, there is provided a cabling / wire having a wiring list design DB separately stored for each section such that a wiring list of devices for wiring is movably stored through a communication network or a removable memory. A ring system comprising: a display element array formed of a plurality of display element units connected to respective contacts in a terminal of a device for wiring; a display element array attached to each wire in the cable and having cable information and wire information for identifying each cable and wire A display element controller for controlling each display element unit of the display element array by wirelessly transmitting device information to the wireless terminal or information transmitted from the wireless terminal, Corresponding terminal information corresponding to the wire information and And a wireless terminal for searching for the contact point information within the terminal and controlling the display element controller using the contact point information in the terminal.

In particular, the display element controller may be installed separately for each device or may be manufactured as a portable type, connected to each device in a set with the wireless terminal, holds the device information, wirelessly transmits the device information in response to a request from the external wireless terminal And a map table for storing each contact point in the terminal of the device and the display element information connected to the contact point, the map information on the map table according to the contact information transmitted from the external device, or the contact point information in the terminal and the display element information connected thereto, And the individual driving of each display element of the display device is controlled. The wireless terminal also stores a wiring list of the devices received through the communication network or the removable memory, wirelessly recognizes the devices and wires through the display controller and the wire tags, It is possible to recognize the in-terminal terminal and the in-terminal contact point, and determine whether the in-terminal contact point and the in-terminal contact point information are present in the map table in the display element controller, Information is transmitted to the display element controller.

The wiring guiding system according to the present invention includes a serial communication unit capable of connecting a communication cable capable of serial communication, so that each terminal provided in the device and each contact information in the terminal can be connected to the display device controller through a serial communication with the display device controller. And sequentially transmits the information to the display element controller so that the terminal and contact information designed by the device manufacturer and the display element information for identifying each display element connected to each contact in the terminal of the device can be stored in advance in the map table of the display element controller And a display element ID prefix setting unit that supports the display element ID prefix setting unit.

According to another aspect of the present invention, there is provided a display element array in which a display element is connected to each contact in a terminal of a device in a one-to-one correspondence manner, A wiring table design DB, a wire tag separately attached to the wire, a map table that holds device information and is stored in each device, and stores map information of each contact and a display device connected to the contact, In a cabling / wiring system that includes a display device controller and a wireless terminal that receives and stores data via a communication network or a removable memory and wirelessly recognizes the wire tag and performs near field wireless communications with the display device controller, A method of guiding a contact within a terminal of a device for wiring, the method comprising the steps of: (a) A first step of receiving and storing the wiring list of the reduced wiring list design DB through a communication network or a removable memory, and (b) a step of storing the device information from the display element controller installed in the device (C) a third step of searching for and loading a wiring list of the device recognized in the second step from the pre-stored wiring list of the wireless terminal, (d) A fourth step of wirelessly recognizing the wireless terminal, searching for the corresponding wire information in the wiring list of the device loaded in the third step, and recognizing the terminal and the contact point in the terminal corresponding to the wire, (e) And mapping information of the in-terminal contact point and the display element information connected thereto is stored in the map table in the display element controller And (f) the wireless terminal selectively transmits the in-terminal contact information or the in-terminal contact information and the connected display element information to the display element controller according to the result of the fifth step And a sixth step, which is a wiring guiding method using a mobile device.

(G) The display element controller receives the in-terminal contact information or the in-terminal contact information and the display element information connected thereto, and displays the mapping information on the map table according to the contact information received from the external device Or the seventh step of controlling individual driving of each display element of the display element array by the in-terminal contact information and the display element information connected thereto.

Further, in the wiring guiding method according to each of the embodiments of the present invention, (a0) all the terminals provided in the apparatus and all the contact information in the terminals are sequentially transmitted to the display element controller in accordance with the operator's request, A display element ID preselecting step of allowing display element information for identifying each display element connected to each contact in the terminal of the apparatus to be stored in advance in a map table of the display element controller; (a).

According to the present invention, the list information on the cabling / wiring of the construction equipment (or the equipment) is reduced for each construction section so as to be suitable for the characteristics of the construction site where the infrastructure such as electricity and communication is not built, The mobile terminal can store and use the wiring lists of the devices for each section stored in the portable wireless terminal such as a smart phone or the like through a mobile memory such as a communication network or a portable flash memory device (e.g., an SD card) There is an advantage that it can be usefully used in a construction site where a basic infrastructure such as communication is not provided.

Further, since the present invention can directly attach the display elements to each of the contacts in the terminal without separately preparing the terminal cover to be provided with the display device, it is possible to locate the cabling / wiring position at a time by a single inspection method, It is possible to perform cabling / wiring operations in a nuclear power plant or the like where wires are present in a convenient and efficient manner so as to prevent cabling / wiring errors and to be reused in view of rewiring and maintenance .

In addition, the present invention can use all the sensors that can utilize RFID, bar code, QR code, RFID, NFC, etc. as the wire tag recognition means, so that utilization can be improved. In addition, when the wiring list is loaded, Since the dynamic memory allocation scheme is used, it is possible to allocate a memory of a desired size according to a situation, which is economical, minimizes a memory size as much as possible, and minimizes a search time.

1 is a schematic view illustrating the overall configuration of a wiring guiding system using a mobile device according to the present invention.
2 is a connection state diagram of LED units illustrated to illustrate the communication method of the LED array of FIG.
3 is a reference view illustrating a plant device and a cable configuration to which a wiring guiding system using a mobile device according to the present invention can be applied.
4 (a) to 4 (d) are detailed views of a wiring list constructed in a wiring guidance system using a mobile device according to the present invention.
5A and 5B are reference views for explaining a data structure and a searching method when loading a wiring list in a wiring guiding system using a mobile device according to the present invention.
6 (a) to (c) are reference views illustrating a network connection type and a wiring list structure for each type that can be implemented in a wiring guidance system using a mobile device according to the present invention.
7 is a block diagram illustrating a detailed configuration of the LED controller of FIG.
8 is a block diagram illustrating a detailed configuration of the wireless terminal of FIG.
FIG. 9 is a flowchart illustrating a method of recognizing a device ID and a wire ID performed by a wireless terminal and driving an LED controller in a wire guidance method using a mobile device according to the present invention.
10 is a flowchart illustrating an LED ID preset operation performed by an LED controller in a wire guidance method using a mobile device according to the present invention.
11 is a detailed flowchart of the fourth step of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an overall configuration and operation of a wiring guiding system and method using a mobile device according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, it should be understood that the embodiments described herein and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and that various equivalents and modifications may be made thereto at the time of the present application shall.

FIG. 1 is a schematic view illustrating an overall configuration of a wiring guiding system using a mobile device according to the present invention. As illustrated in FIG. 1, a wiring guiding system using a mobile device according to an embodiment of the present invention roughly comprises: The LED ID presetting unit 70 and the LED ID presetting unit 70. The LED ID presetting unit 70 may be configured to include the wireless ID tag 20, the wire tag 30, the wiring list design DB 40, the LED controller 50, Other embodiments are implemented in the form of < RTI ID = 0.0 >

In the present specification, LEDs will be described as "display elements" for a user interface, and LED array elements, LED controllers, and the like will be described while describing the LEDs. However, the names refer to a general display element array, a display element controller, Corresponds to any one of LED, laser pointer, LCD, and segment display.

The LED array 20 is comprised of a plurality of LED units 20a-20n each corresponding to a respective one of the points 12 in one or more terminals 11 of the device 10 for wiring, The LED controller 50 may be separately installed for each device 10, or may be manufactured as a portable type and connected to each device in a set with a wireless terminal. Each of the LED units 20a to 20n includes a sub control unit 21 and an LED 22 and the LED 22 is connected to each of the contacts 12 in the terminal 11 of the device 10 for wiring .

FIG. 2 is a connection state diagram of LED units illustrated to illustrate connection and communication methods of the LED array of FIG. 1, in which each of the LED units 20a-20n includes upper bits ) To the lower bits (the right side in the figure) by one bit.

FIG. 3 is a reference view illustrating a plant device and a cable configuration to which a wiring guiding system using a mobile device according to the present invention can be applied. As illustrated in FIG. 3, the wire tag 30 includes a terminal 8) of the wireless terminal 60 and the wires 14 of the cable 13 to be wired to the respective contacts 12 of the wireless terminal 60 ). The wire tag 30 is attached to both ends of each wire 14 in the cable 13 by a pair of wire tags 30L and 30R and is made of any one of barcode, QR code, NFC, and RFID tag .

4A to 4D are detailed views of a wiring list constructed in a wiring guiding system using a mobile device according to the present invention, wherein (a) is a detailed view of a tag ID, (b) (C) is a detail view of a unit wiring list, and (d) is a detail view of a pair of wiring lists.

The wiring list design DB 40 is constructed by a designer and includes a wiring list 100 of each device requiring wiring in a plant equipment construction site (for example, a nuclear power plant construction site, etc.) The design drawing and related information for the list is stored.

At this time, it is preferable that the wiring list 100 stored in the wiring list design DB 40 is configured separately for each device ID. As illustrated in FIGS. 4A and 4B, The wiring list 100 includes a tag ID 110 for identifying a wire tag 30 (see FIG. 3) attached to both ends of each wire, a cable 13 and a wire 14 connected to each device 10 And a terminal / contact record 120 for identifying the position information to be transmitted. The tag ID 110 includes a cable ID 111 and a wire ID 112 and the terminal / contact record 120 includes a device ID 121, a terminal ID 122, do. Thus, each wiring list 100 can be composed of the device ID 121, the cable ID 111, the wire ID 112, the terminal ID 122, and the contact ID 123.

Each of these wiring lists 100 further includes an LED ID 131 for identifying each LED 22 of a plurality of LED units 20a-20n connected in a one-to-one correspondence to respective contacts in the terminal of the apparatus And each wiring list 100 includes a device ID 121, a cable ID 111, a wire ID 112, a terminal ID 122, and the like, as illustrated in FIG. 4C. A contact ID 123, and an LED ID 131. [0052] However, the LED ID must be fed back to the designer after the LED manufacturer has determined the LED ID. This can be troublesome in the process. Therefore, the LED ID can be omitted if necessary. Because. This wiring list 100 is also connected to a pair of wire tags 30L and 30R which are provided at both ends of the wire 14 in correspondence with each other as illustrated in FIG. ). Such a wiring list may be divided into one or more construction sections so that the wiring list and the design drawings and related information thereof can be stored in one or more construction sections in order to enable movement storage through a communication network or a removable memory (e.g., a flash memory card with mobility) It is preferable to store it in an abbreviated form.

FIGS. 5A and 5B are views for explaining a data structure and a searching method at the time of loading a wiring list in a wiring guiding system using a mobile device according to the present invention. FIGS. 6A to 6C are views 1 is a diagram illustrating a network connection type and a wiring list structure according to an embodiment of the present invention; (B), a state in which a plurality of contacts are radially connected to one contact, and a list structure (c) thereof, in a cascade-connected state.

In the wiring list 100 constructed as described above, the link pointer information 124 indicating the network connection state for each terminal ID and the contact ID is stored in the respective contact IDs 123 as illustrated in FIGS. 5A and 5B. The link pointer information 124 may be formed by connecting two contact IDs one-to-one as illustrated in (a) of FIG. 6, or by connecting N contact IDs as illustrated in (b) Is cascaded, or information indicating that one contact ID and a plurality of contact IDs are radially connected as illustrated in (c).

7 is a block diagram illustrating a detailed configuration of the LED controller of FIG. 1. The LED controller 50 is installed in each device 10 and stores device identification information for identifying each device, that is, a device ID 121 And wirelessly transmits the device identification information in response to a request from an external device (for example, Bluetooth pairing through the short-range wireless communication unit 61 of the wireless terminal 60), and each contact in the terminal of the device and an LED (For example, a terminal ID, a contact ID, and an LED ID mapping information), so that the mapping information on the map table or the in-terminal contact information according to the contact information transmitted from the external device and the LED information connected thereto And controls individual driving of each LED unit 20a-20n of the LED array 20. [ At this time, the LED controller 50 transmits an LED driving command to each LED unit 20a-20n to the LED array 20 through a single control line in a serial communication manner.

7, the LED controller 50 includes a short range wireless communication unit 51, a map table storage unit 52, an auxiliary power unit 53, an LED control interface unit 54, And a main control unit 55. [

The short-range wireless communication unit 51 is constituted by any one of communication means selected from near-field wireless communication means such as NFC, RFID, Bluetooth, etc. (hereinafter, the case where Bluetooth is mounted will be described as an example) And performs short-range wireless communication with the device to transmit and receive data.

The map table storage unit 52 stores device information (device ID), and stores the terminal information (terminal ID) provided in the device, each contact information (contact ID) in each terminal, each contact information, and an LED And a map table for mapping and storing information (LED ID).

The auxiliary power supply unit 53 supplies the operating power of the battery or the secondary battery to each part of the LED controller 50 including the LED array 20 when no external power is supplied.

The LED control interface unit 54 is connected between the main control unit 55 and the LED array 20 and is configured to map the LED IDs on the map table according to terminal information (terminal ID) and contact information (contact ID) And an LED array 20 for individually driving each LED unit of the LED array with the LED information connected to the contact information and the in-terminal contact information transmitted from the external device.

The main control unit 55 wirelessly communicates with the external device through the short-range wireless communication unit 51, wirelessly transmits the held device information in response to a request from the external device, Map information of the map table storage unit 52, mapping information on the map table according to the contact information transmitted from the external non-power terminal, or LED information connected to the contact point information transmitted from the external wireless terminal And controls the individual driving of the LED units 20a-20n of the LED array 20 through the LED control interface unit 54. [

FIG. 8 is a block diagram illustrating a detailed configuration of the wireless terminal of FIG. 1. The wireless terminal 60 is equipped with a short-range wireless communication means such as Bluetooth, NFC, RFID, And may store the wiring list 100 of the device 10 received through the communication network or the mobile memory and may store the wire tag 30 and the LED controller 50 Recognizes the tag ID and the device ID of the wire respectively and recognizes the in-terminal terminal and the terminal inside terminal corresponding to the wire on the basis of the pre-stored wiring list. Then, in the map table in the LED controller 50, Determines whether or not there is mapping information of the LED information connected thereto, and selectively outputs the in-terminal contact information or the in-terminal contact information and the LED information connected thereto by LED control It passes to 50. 8, the wireless terminal 60 includes a short range wireless communication unit 61, a tag detection unit 62, a main memory 63, an auxiliary memory 64, (65).

The short-range wireless communication unit 61 is constituted by any one of wireless communication means selected from short-range wireless communication means such as NFC, RFID, or Bluetooth (hereinafter, the case where Bluetooth is mounted will be described as an example) Performs short-range wireless communication with an external device, and transmits / receives data.

The tag detection unit 62 transmits a request for ID transmission to the wire tag 30 and the LED controller 50 within a predetermined distance, respectively, and receives a tag ID 110 and a device ID The wireless terminal 60 can wirelessly recognize the tag ID 110 and the device ID 121 of the wire through the wire tag 30 and the LED controller 50, respectively.

The main memory 63 is accessed by the wiring guide control unit 65 and stores the wiring list of the corresponding device ID recognized by the LED controller 50. [ The wiring list loaded and stored in the main memory 63 at this time is the list information that the wiring guide controller 65 searches and loads from the auxiliary memory 64 based on the corresponding device ID recognized from the LED controller 50 .

The auxiliary memory 64 is accessed by the wiring guide control unit 65 and stores the detailed wiring list for each section for one or more devices for wiring, received via the communication network or the removable memory.

The wiring guiding control unit 65 includes a serial communication interface SIO and a flash memory card interface to receive the wiring list of the devices via the communication network or the removable memory and store them in the auxiliary memory 64, (62) to wirelessly recognize the device ID and the tag ID of the wire through the LED controller (50) and the wire tag (30), and send the wiring list of the devices stored in the auxiliary memory (64) to the main memory And recognizes the in-terminal and in-terminal contacts corresponding to the wire on the basis of the wiring list of the device, and determines whether the mapping information of the in-terminal contact and the LED information connected thereto is present in the map table in the LED controller And selectively transmits the in-terminal contact information or the in-terminal contact information and the LED information connected thereto to the LED controller according to the result of the check And it controls a series of operations. The data structure at the time of loading the wiring list performed by the wiring guiding control unit 65 is a dynamic memory allocation scheme utilizing an index based connection list so as to minimize the memory size and the search time at the time of data loading And data retrieval is performed in a binary manner.

The LED ID presetting unit 70 is a serial communication unit for communicating with the LED controller 50 through a serial input / output interface (SIO) capable of serial communication, To the LED controller 50 so as to store the terminal and contact information designed by the device manufacturer and the LED information for identifying each LED connected to each contact in the terminal of the device in the map table of the LED controller 50 do. The LED ID presetting unit 70 may be implemented as a separate hardware (module), software (LED ID preset program, etc.), and preferably implemented in software to be mounted on a fish or a wireless terminal.

FIG. 9 is a flowchart illustrating a method of recognizing a device ID and a wire ID performed by a wireless terminal and driving an LED controller in a wiring guiding method using a mobile device according to the present invention. FIG. 10 is a flowchart FIG. 11 is a detailed flowchart of the fourth step of FIG. 9. FIG. 11 is a detailed flowchart of the wiring ID guiding method according to the present invention. FIG. 11 is a detailed flowchart of the LED ID preset operation performed by the LED controller in the wiring guiding method, An LED array 20 in which the LED units are connected in a one-to-one correspondence with each other, a wire tag 30 individually attached to the wire, a wiring list design DB 40 for storing a wiring list of equipment to be wired, A map table which is installed in each device and holds device information and stores each contact point in the terminal and LED mapping information connected thereto, An LED controller 50, and a wireless terminal 60 that receives and stores data via a communication network or removable memory, wirelessly recognizes the wire tag and performs near field wireless communications with the LED controller. As shown in FIG.

The method of guiding an intra-terminal contact point of an apparatus for cabling / wiring according to the present invention, which is performed by the wireless terminal 60, includes steps (a) through (f) And the seventh step (g) performed by the LED controller 50 in communication with the wireless terminal 60 may be implemented in another embodiment. In addition, the present invention may be implemented such that it further includes the LED ID presetting step a0 as exemplified in Fig. 10 so as to be performed in advance before the first step.

In the first step (a), the wireless terminal 60 receives the wiring list of the wiring list design DB 40 narrowed for each section through the communication network or the mobile memory and stores the wiring list in the auxiliary memory 61 (S101 )to be.

The second step (b) is a step (S102, S103) in which the wireless terminal 60 wirelessly recognizes the device information (device ID) through the tag sensing unit 62 from the LED controller 50 installed in the device . At this time, the wireless terminal 60 may recognize the device ID as a value directly input through the key input unit. In this case, the worker may know the device ID in advance.

In the third step (c), the wireless terminal 60 searches the wiring list of the auxiliary memory 61 for the device ID corresponding to the device ID recognized in the second step from the wiring list stored in the auxiliary memory 61, (S104).

In the fourth step (d), the wireless terminal 60 wirelessly recognizes the wire information (cable ID and wire ID) from the wire tag 30 through the tag detecting unit 62, (S105) of searching for the corresponding wire information and recognizing the terminal of the device and the contact point in the terminal corresponding to the wire.

In the fifth step (e), the wireless terminal 60 performs wireless communication with the LED controller 50 to determine whether the mapping information of the in-terminal contact point and the LED information connected thereto exists in the map table in the LED controller 50 (Step S106).

In the sixth step (f), the wireless terminal 60 selectively transmits the in-terminal contact information or the in-terminal contact information and the LED information connected thereto to the LED controller 50 according to the result of the fifth step (S107, S108).

In the seventh step (g), the LED controller 50 receives the in-terminal contact information or the in-terminal contact information transmitted from the wireless terminal 60 and the LED information connected thereto and transmits the mapping information on the map table according to the contact information, Guiding the individual contacts of the respective LED units 20a-20n of the LED array 20 to the contact points closest to the LEDs to be lighted by controlling the contact point information and the LED information connected thereto S109).

10, the LED ID presetting step a0 sequentially transmits the respective terminal information and each contact information in the terminal to the LED controller 50 according to the operator's request, The LED ID presetting unit 70 is a processing step that assists in storing the designed terminal and contact information and LED information for identification of each LED connected to each contact point of each device in the map table of the LED controller 50 ) Or a preset program installed in a wireless or wireless terminal.

When the operator selects desired terminal and contact information in the device, the LED ID presetting step (a0) includes: a step (a01) of transmitting the terminal and contact information to the LED controller (50) by serial communication; The LED controller 50 receiving the information sequentially emits the LEDs one by one using the LED information of the currently connected LED units 20a-20n of the LED array 20 (step a02) (For example, information confirmed by the operator's key input when the corresponding LED illuminated by the LED controller is turned on in accordance with the terminal and contact information selected by the operator). When the key input is confirmed, the LED controller 50 (A03-a3) until the mapping of the LED information to all the terminals and the contact information is completed, and a step (a03) of mapping the received terminal and contact information and the LED information to the map table, Repeatedly Step a04 may be included.

The fourth step (d) includes the steps of (d1) recognizing the cable ID and the wire ID from the wire tag and retrieving the cable ID array from the loading list loaded in the third step (S201 (d2) a step (S202) of searching the cable ID acquired through the tag sensing unit 62 by using a binary search technique in the cable ID array (d2), (d3) searching the cable ID acquired through the tag sensing unit 62 (S203) of searching for a wire ID in the wire ID array corresponding to the detected wire ID (S203), (d4) obtaining a terminal ID and a contact ID linked to the wire ID searched (S204) The step of acquiring the terminal ID and the contact ID at this time may include setting the wire ID to decrease if the linked data does not include the terminal ID and to acquire the terminal ID if the wire ID having the reduced index has the terminal ID May be have.

Detailed operation of the wiring guiding system and method using the mobile device according to the present invention will be described as follows.

First, when the wiring list design DB 40 of the plant equipment to be constructed by the designer is built, the wiring list design DB 40 is stored in the wiring list design DB 40 in the form of wiring in the plant equipment construction site (for example, A wiring diagram 100 of each device 10 requiring a wiring design list and a design drawing and related information for each wiring list are stored in the wiring list 100. A cable ID 111 and a wire ID 112 , A terminal / contact record 120 composed of the device ID 121, the terminal ID 122 and the contact ID 123, and the LED ID 131 . At this time, the wiring list design DB 40 stores the wiring list 100 of each device 10 (for example, a flash memory card having mobility, etc.) ), The design drawings and related information for each wiring list are separated and stored in one or more construction sections. At this time, each wiring list 100 has a wiring list pair 100L (100L) for the wire tag pairs 30L and 30R attached to both ends of the wire 14 as shown in FIG. 4 (d) , And 100R. One or a plurality of link pointer information 124 indicating two or more contact point IDs indicating the network connection state for the contact point IDs in each terminal, that is, two contact point IDs are connected to each wiring list 100 or wiring list pair 100L, Or N contact IDs are connected in a cascading manner or link pointer information 124, which is information indicating that one contact ID and a plurality of contact IDs are radially connected, .

Next, each of at least one device 10 requiring the wiring of the cable 13 and the wire 14 is first connected to a short-range wireless communication unit 51, a map table storage unit 52, an auxiliary power source unit 53, 1 and 3, the LED controller 50 including the main controller 54 and the main controller 55 is installed and one or more terminals 11 The plurality of LED units 20a-20n constituted by the sub-control unit 21 and the LED 22 correspond one-to-one to the LED arrays 20, respectively. At this time, the sub-control unit 21 of each LED unit 20a-20n is operably connected to the LED controller 50 installed in each device 10 by serial wire communication using one control line. The LED 22 of each of the LED units 20a to 20n is provided in close proximity to each of the contacts 12 in the terminal 11 of the apparatus 10 for wiring so that any LED The operator can easily grasp the contact point 12 within the terminal 11 in the closest position corresponding to the LED using the corresponding LED which is turned on.

When the installation of the LED array 20 is completed as described above, the LED ID presetting unit 70 (which may be a separate module or a preset program installed in the PC or wireless terminal, A step of presetting the LED ID by means of the LED ID presetting unit implemented as a module can be preferentially performed. In this LED ID presetting step a0, The LED ID presetting unit 70 sequentially transmits each terminal provided in the device and each contact point information in the terminal to the LED controller 50 in accordance with the operator's request so that terminal and contact information designed by the device manufacturer, (LED ID) for identification of each LED connected corresponding to each contact in the terminal of the LED controller 50 in the map table of the LED controller 50.

In this LED ID presetting step (a0), when the operator selects desired terminal and contact information (terminal ID and contact ID) in the device, the LED ID presetting unit (70) The LED controller 50 transmits the terminal information and the contact information (terminal ID and contact ID) to the LED controller 50 through the serial communication (a01) (A02) sequentially by one by one using the LED information (LED ID) of the currently connected LED units 20a-20n of the LED 20 of the display unit 20. Thereafter, the LED ID presetting unit 70 determines whether or not the confirmation information (for example, the corresponding LED illuminated by the LED controller is lit by the operator in accordance with the terminal ID and the contact ID selected by the operator) (LED ID) from the LED controller 50 to the LED controller 50, and the terminal information and the contact information (for example, The terminal ID and the contact ID) and stores the terminal ID and the contact ID in the RF or wireless terminal, while the LED controller 50 transmits the terminal and contact information (terminal ID and contact ID) received from the LED ID presetting unit 70, The LED information (LED ID) is mapped and stored in the map table (a03).

Each of these terminal and contact information (terminal ID and contact ID) and each LED ID setting operation is repeated until the mapping of each LED information is completed for all terminals and contact information, by repeating the above steps a01-a03 (a04), the LED ID preset operation can be completed.

3, both ends of each wire 14 of the cable 13 to be wired in each contact 12 in the terminal 11 of each device 10 are connected to an external device A QR code, an NFC tag, and an RFID tag so as to be wirelessly recognized by the RFID reader 60 (or the tag detecting unit 62 of the RFID reader 60) The two wire tags 30L and 30R positioned at both ends of the wire tag pair 30L and 30R form a pair of wire tag pairs 30L and 30R.

Once the installation of the LED array 20, the wire tag 30 and the LED controller 50 is completed and the cabling / wiring device is determined, the operator or the designer It is possible to operate the microcomputer (not shown in the figure) to operate the microcomputer, and to send the reduced wiring list for each device in the wiring list design DB 40 through the communication network or move the microcomputer in the portable memory.

9, the wiring guiding control unit 65 of the wireless terminal 60 in the first step (a) receives the reduced wire for each section, which is received via the communication network or accessed through the removable memory, The ring list can be stored in the auxiliary memory 64 (S101).

Thereafter, the operator approaches the vicinity of the device to be cabled / wired, activates the short range wireless communication unit 61 (for example, Bluetooth module) of the wireless terminal 60, sets an external device to be paired, The wireless connection controller 65 of the wireless terminal 60 wirelessly receives the data from the LED controller 50 and transmits the data to the LED controller 50, (B) of judging whether the ID of the device held by the device is recognized (S103). At this time, when the operator knows the device ID in advance, the wiring guiding control unit 65 of the wireless terminal 60 may directly recognize the device ID by an operation of key input through the key input means of the wireless terminal 60 .

When the corresponding device ID is recognized (Y branch of S103), the wiring guiding control unit 65 of the wireless terminal 60 adds the recognized device ID to the recognized wiring ID list (C) to search the corresponding wiring list and load it into the main memory 63 (S104).

Next, the wiring guiding control unit 65 of the wireless terminal 60 wirelessly recognizes the wire information (cable ID and wire ID) from the wire tag 30 through the tag detecting unit 62, and in the third step (c) (The cable ID and the wire ID) recognized from the wire tag in the wiring list of the loaded corresponding device ID, and recognizes the terminal and terminal contacts (terminal ID and contact ID) of the device corresponding to the wire (Step S105).

In the fourth step (d), the wiring guiding control unit 65 of the wireless terminal 60 transmits the wire information (cable ID and wire ID) from the wire tag 30 through the tag detection unit 62 to the wireless recognition S201 11), the corresponding cable ID array (see FIG. 5B) corresponding to the cable ID in the wire information is searched for (S201) in the wiring list of the corresponding device ID loaded in the main memory 63, The cable ID is searched for in the cable ID array using the binary search technique (S202).

5B) linked to the searched cable ID (S203) to acquire the terminal ID and the contact ID linked with the wire index (S204). At this time, if there is no terminal ID and contact ID in the data linked to the wire index, the wire index is decreased, and if the wire ID having the reduced index has terminal ID and contact ID, the terminal ID and the contact ID are obtained do.

The wiring guiding control unit 65 of the wireless terminal 60 performs wireless communication with the LED controller 50 installed in the corresponding device so as to map the in-terminal contact point and the LED information connected thereto with the map table in the LED controller 50 (S106) whether the information exists or not.

As a result of the fifth step, if there is mapping information of the in-terminal contact point and the LED information connected thereto in the map table in the LED controller 50 (Y branch of S106), the wiring guiding control unit The LED controller 50 transmits the terminal contact information to the LED controller 50 in step S107. On the other hand, if there is no mapping information of the in-terminal contact point and the LED information connected thereto in the map table in the LED controller 50 The wiring guiding control unit 65 of the wireless terminal 60 performs the sixth step of transmitting the in-terminal contact information and the LED information connected thereto to the LED controller 50 (S108).

In step 7, the LED controller 50 receives the in-terminal contact information or the in-terminal contact information selectively transmitted from the wireless terminal 60 and the LED information connected thereto, and outputs mapping information on the map table according to the contact information , Or by individually driving each LED connected to each LED unit (20a-20n) of the LED array (20) by the in-terminal contact information and the LED information connected thereto, the operator finds the closest contact to the LED (S109).

In the present invention as described above, the information about the wiring list of the devices in the design drawings stored in the DB is separated according to the construction section as needed, and is stored in the portable network using a communication network or a portable flash memory device (for example, SD card) And can be stored and utilized in a mobile terminal or a wireless terminal such as a smart phone in a short time, so that it can be advantageously used at a construction site where basic infrastructure such as electricity and communication is not provided.

In addition, since the LED cover is not separately manufactured and the LED is directly attached to each of the contacts in the terminal, a single inspection method is used, so that the cable or wiring operation can be conveniently performed. There is an advantage that it can be reused from the viewpoint of re-wiring and maintenance.

In addition, since the present invention can use all the sensors that can utilize bar code, QR code, RFID, NFC, etc. as the wire tag recognition means, the utilization can be improved, and dynamic memory It is economical to allocate a memory of a desired size according to a situation, minimizing a memory size as much as possible and minimizing a search time.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, the spirit of the present invention should be understood only in accordance with the following claims, and all equivalents or equivalent variations thereof are included in the scope of the present invention.

10: Device 11: Terminal
12: Contact point 13: Cable
14: wire 20: LED array
20a-20n: LED unit 21:
22: LED 30: wire tag
30L, 30R: Wire tag pair 40: Wiring list design DB
50: LED controller 51, 61: short-
52: map table storage unit 53: auxiliary power unit
54: LED control interface unit 55: main control unit
60: wireless terminal 62: tag detection unit
63: main memory 64: auxiliary memory
65: Wiring guide control unit 70: LED ID presetting unit
100: Wiring list 100L, 100R: Wiring list pair

Claims (20)

1. A cabling / wiring system having a wiring list design DB separately stored for each section so that a wiring list of devices for wiring is movably stored through a communication network or a removable memory,
A display element array composed of a plurality of display element units connected to respective contacts in a terminal of a device for wiring;
A wire tag attached to each wire in the cable and having cable information and wire information for each cable and wire identification and recognized by the wireless terminal;
A display element controller for wirelessly transmitting device information to the wireless terminal or controlling each display element unit of the display element array by information transmitted from the wireless terminal; And
And a wireless terminal for searching the in-terminal terminal information and the in-terminal contact information corresponding to the device information and the wire information in the wiring list of the device and controlling the display device controller using the searched in-terminal contact information,
The display element controller includes:
It is installed separately for each device or it is manufactured as a portable type and is connected to each device in a set with a wireless terminal, holds device information, wirelessly transmits device information in response to a request of an external wireless terminal, And a map table for storing display element information connected to the display element information, mapping information on the map table according to the contact information transmitted from the external wireless terminal, or contact information on the terminal and the display element information connected thereto, And the individual driving of the unit is controlled. The method according to claim 1,
Serial communication with the display device controller through the serial input / output interface (SIO), the terminal provided in the device and all the contact information information in the terminal are sequentially transmitted to the display device controller according to the operator's request, And a display element ID presetting unit for assisting the display element information for identifying the display elements connected to the respective contact points in the terminal of the apparatus so as to be stored in the map table of the display element controller A wire guidance system using a mobile device. delete The wireless terminal of claim 1,
Receiving and storing the wiring list of the device through the communication network or the mobile memory, and wirelessly recognizing the device information and the wire information from the display element controller and the wire tag, respectively, The terminal information and the contact point information within the terminal are searched for and communication with the display element controller is checked in the map table in the display element controller to determine whether there is mapping information of the contact point information within the terminal and the display element information connected thereto, And selectively transmits the in-terminal contact information or the in-terminal contact information and the connected display element information to the display element controller according to the result of the determination. The display device according to any one of claims 1 to 3,
A display element which is connected to each contact in the terminal of the device for wiring in a one-to-one correspondence;
And a sub-controller for detecting an address in driving data transmitted from an external device and driving the display device,
The sub-
Wherein when the address detected in the driving data transmitted from the external device is its own address, the driving device drives the display device and, if the address is not its own address, the driving data is bit delayed and transferred to the display device unit of the next lower bit. Wiring guidance system using equipment. The wiring list design DB according to any one of claims 1 to 3,
Wherein the design drawing and the related information for the wiring list are separated and reduced by one or more construction sections in order to enable movement storage through a communication network or a removable memory. delete The method according to any one of claims 1 to 3,
A tag ID for identifying a wire tag;
And a terminal / contact record for identifying the location information of the cable and the wire connected to the respective devices. 9. The method of claim 8,
Wherein the tag ID comprises a cable ID and a wire ID,
Wherein the terminal / contact record includes a device ID, a terminal ID, and a contact ID. 9. The method of claim 8,
And a display element ID for identifying a plurality of display elements corresponding to one-to-one correspondence to the respective contacts in the terminal of the apparatus. 9. The method of claim 8,
And a wiring list pair for the two wire tags which are separately arranged for each device ID and installed at both ends of the wire in correspondence with each other. The method according to any one of claims 1 to 3, wherein the data structure at the time of loading the wiring list by the wireless terminal comprises:
A dynamic memory allocation scheme using an index-based linked list is applied to minimize a memory size and a search time at the time of data loading,
And the data search is performed in a binary manner. 9. The method of claim 8,
And link pointer information indicating a network connection state for each terminal ID and contact ID is further added to each contact ID. 14. The method of claim 13, wherein the link pointer information comprises:
A state in which two contact IDs are connected in a one-to-one manner, N contact IDs are connected in a cascading manner, and a state in which one contact ID and a plurality of contact IDs are radially connected. Wiring guidance system using equipment. The display device according to any one of claims 1 to 3,
And the plurality of display element units are connected to one line so as to be capable of serial communication with the display element controller. A display element array in which each display element is connected to each contact point of the device in a one-to-one correspondence with each contact point of the device, a wiring list design DB in which a wiring list of the wiring device is stored in a simplified construction section, A display device controller provided in the device and having a map table for storing the device information and storing the respective contact points in the terminal and the display element mapping information connected thereto and driving the display elements individually; and a display controller for receiving data through the communication network or the removable memory And a wireless terminal for storing and storing wireless tags and performing near field wireless communication with the display element controller, in a method for guiding contacts in a terminal of a device for cabling / wiring As a result,
(a) a first step in which a wireless terminal receives and stores a wiring list of a wiring list design DB reduced for each section through a communication network or a removable memory;
(b) wirelessly recognizing device information from a display device controller installed in the device;
(c) a third step for the wireless terminal to retrieve and load the wiring list of the device recognized in the second step from the pre-stored wiring list;
(d) The wireless terminal wirelessly recognizes the wire information from the wire tag, retrieves the corresponding wire information from the wiring list of the apparatus loaded in the third step, and recognizes the terminal of the apparatus corresponding to the wire and the contact point within the terminal step;
(e) a fifth step of the wireless terminal performing wireless communication with the display element controller to check whether the mapping information of the terminal inner contact and the display element information connected thereto exists in the map table in the display element controller; And
(f) the sixth step of selectively transmitting the in-terminal contact information or the in-terminal contact information and the connected display element information to the display element controller according to the result of the fifth step of the wireless terminal Wiring guide method using mobile device. 17. The method of claim 16,
(g) The display element controller receives the in-terminal contact information or the in-terminal contact information and the display element information connected thereto, and generates mapping information on the map table according to the contact information or the in-terminal contact information, And controlling the individual driving of each of the display elements of the mobile device. 18. The method according to any one of claims 16 to 17, wherein the fourth step (d)
(d1) recognizing the cable ID and the wire ID from the wire tag, and retrieving the cable ID array from the wiring list loaded in the third step;
(d2) retrieving the cable ID obtained from the wire tag using the binary search technique in the retrieved cable ID array;
(d3) searching for a wire ID array corresponding to the retrieved cable ID;
(d4) retrieving a wire ID obtained from the wire tag in the wire ID array; And
(d5) acquiring a terminal ID and a contact ID to which the searched wire ID is linked. 18. The method according to any one of claims 16 to 17,
(a0) Each terminal provided in the device and all the contact information information in the terminal are sequentially transmitted to the display element controller in accordance with the operator's request, so that the terminal and contact information designed by the device manufacturer and correspondingly connected to each contact in the terminal And a display element ID preselecting step of allowing display element information for identifying each display element to be stored in a map table of the display element controller, prior to the first step (a). In the wiring guiding method. The method according to claim 19, wherein the display element ID presetting step (a0)
(a01) selecting desired terminal and contact information in the device and transmitting it to the display controller by serial communication;
(a02) sequentially lighting the display elements one by one using the display element information currently connected to the display element controller;
(a03) When the lighted corresponding display element is turned on in accordance with the terminal and contact information selected by the operator, the confirmation information to be input by the operator is determined, and the terminal and contact information and the display element information are mapped and stored in the map table ; And
(a04) Repeatingly executing the steps (a01-a03) for all terminal and contact information.

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