TW201729130A - Method for planning cable arrangement - Google Patents

Abstract

A method for planning cable arrangement is disclosed and executed through at least one terminal device and a server built with a cable data base. The method includes steps of providing an input interface to ask a user inputs at least one spec selecting instruction and at least one equipment-related instruction; creating a cable list according to the spec selecting instruction and the equipment-related instruction; and creating an interconnection diagram based on the cable list.

Description

Cable configuration planning method

The present invention relates to a cable configuration planning method, and more particularly to a cable configuration planning method applicable to a power transmission and distribution system and a control system.

Conventional power transmission and distribution systems and control systems are known to include power lines of various voltage levels, which involve the use of different sizes of power cables and control cables. Power cables are cables used in power systems to transmit and distribute high-power electrical energy; control cables are used to transmit control signals with a relatively large number of cores. Therefore, in addition to designing a feasible transmission and distribution system, power supply related operators must also apply cables of appropriate specifications to the system to make the overall system safe and reliable.

In the past, when the cable configuration was carried out, the processing method was manually made according to the requirements of the cable specification table according to the field and classification, and the cable list, power cable list, terminal wiring table, equipment connection diagram and terminal wiring diagram were prepared. Etc., errors may occur due to human error during processing. For example, the cable types of the same cable number in the cable list and terminal wiring table are different.

In addition, the cable pressure drop in the above power cable list shall be checked according to the type of cable, the cable size, the cable length and the number of cable cores to obtain the impedance per unit length of the cable. The cable voltage drop is then calculated by substituting the current, operating voltage and power distribution form into the formula. Therefore, the cumbersome process of manually checking the table is more prone to errors.

The existing equipment association diagram only indicates the cable routing information between the power equipment. Only the terminal wiring diagram indicates the wiring information in the power equipment. Therefore, when the maintenance personnel check the line, it is often necessary to interact with the equipment connection diagram and the terminal wiring diagram. Compare the query.

Therefore, it is necessary to provide a cable configuration planning method to solve the problems of the conventional technology.

The main object of the present invention is to provide a cable configuration planning method to help reduce the working time of cable configuration planning (such as making cable lists, power cable lists, terminal wiring tables, and device association diagrams) and reducing the chance of manual processing errors.

To achieve the above objective, the present invention provides a cable configuration planning method, which is performed by connecting at least one terminal device to a cable database, wherein the cable database stores cable data, and the cable configuration planning method includes the following steps: providing an input The interface is required to input at least one specification selection instruction and at least one device association instruction according to the input interface; establishing a cable list, selecting a command and device association instruction according to the specification to generate a corresponding cable list; and establishing a device association diagram, The corresponding device association diagram is generated according to the cable list.

In an embodiment of the invention, the input interface provides a menu field associated with the cable number, cable type, cable size, or number of cable cores. The menu field links the cable number, cable type, and cable stored in the cable database. Size or cable number data; the specification selection command refers to the selection command for selecting the cable number, cable type, cable size or cable number from the menu field of the input interface.

In an embodiment of the invention, the input interface provides a cable length and a setting field of the device numbers at both ends; the device data command refers to the input cable length in the setting field. Enter the command with the numeric character of the device number at both ends.

In an embodiment of the present invention, the step of providing an input interface further requires the user to input at least one circuit data instruction; the cable configuration planning method further includes: establishing a power cable list, according to the circuit data instruction A list of power cables corresponding to the cable list generation.

In an embodiment of the present invention, the input interface further provides a plurality of power menu fields, wherein the power menu field is linked to current, working voltage or power distribution form data stored in the cable database; the circuit data command refers to the The power menu field of the input interface selects the selection command for current, operating voltage or power distribution.

In an embodiment of the present invention, the cable data of the cable database is divided into power cable data and control cable data; the step of establishing a power cable list is to first filter the cable number and cable associated with the power cable data from the cable list. The type, cable size or cable number data, together with the current, operating voltage or power distribution form data provided by the circuit data command to generate a corresponding power cable list.

In an embodiment of the present invention, the step of establishing a power cable list further includes a voltage drop calculation step of first calculating a corresponding unit length impedance according to the cable type and the cable size, and then matching the current provided by the circuit data instruction, The working voltage and power distribution form data are calculated to generate a corresponding percentage of the pressure drop value and listed in the power cable list.

In an embodiment of the present invention, the cable data of the cable database is divided into power cable data and control cable data; the step of establishing a device association map is to follow the power cable data and the control cable data in the cable list. The distinction is made, and then the differentiated cable data is sorted according to a preset sorting definition to generate the device association graph.

In an embodiment of the present invention, the cable configuration planning method further includes a step of generating a terminal wiring table, wherein the step is to generate a corresponding terminal wiring table according to the cable number data in the cable list and the cable database; The generated terminal wiring table provides the terminal data input fields of the terminal block number, terminal number and line number.

In an embodiment of the invention, the cable database is built in a server, and the terminal device is connected to the server through a network; or the cable database is stored in the terminal device.

It can be seen from the above description that the present invention mainly provides a cable configuration plan by providing an input interface of a user terminal device, directly generates a cable list according to an input command, and generates a corresponding power cable list and device association map according to the cable list and other related commands. And the terminal wiring meter can greatly improve the processing efficiency of the traditional cable list, power cable list, terminal wiring table and equipment association diagram and reduce the human error.

100‧‧‧ Cable database

200‧‧‧ cable list

300‧‧‧Device association diagram

400‧‧‧Power cable list

500‧‧‧Terminal Wiring Table

1‧‧‧ first input step

2‧‧‧Second input step

3‧‧‧ third input step

1 is a flow chart of a method of a cable configuration planning method in accordance with a preferred embodiment of the present invention.

Fig. 2 is a flow chart showing the generation of a power cable list, a device association map, and a terminal wiring table based on a cable list when the cable configuration planning method of the present invention is implemented.

Figure 3 is a schematic diagram showing the generation of a cable list and a power cable list in accordance with a preferred embodiment of the present invention.

Figure 4 is a schematic diagram showing the generation of a device association diagram in accordance with a preferred embodiment of the present invention.

Figure 5 is a schematic diagram showing the generation of a terminal wiring meter in accordance with a preferred embodiment of the present invention.

In order to achieve the above and other objects, features and advantages of the present invention. It will be apparent that the preferred embodiment of the invention will be described in detail below with reference to the accompanying drawings.

The cable configuration planning method of the present invention is mainly used to plan the cable configuration of the transmission and distribution system equipment. The planning system implementing the method shall provide at least one terminal device and a server. The server and the terminal device can communicate via an internet connection. The server has a built-in cable library. The cable database stores cable data and related information of various power transmission and distribution equipment. The cable data includes information such as cable number, cable type, cable size, and cable number of each cable. The cable data can be divided into power cable data and control cable data according to cable type and cable size.

Please refer to FIG. 1 and FIG. 2 simultaneously. FIG. 1 is a flowchart of a method for planning a cable configuration according to a preferred embodiment of the present invention; and FIG. 2 is a schematic diagram showing a cable configuration planning method of the present invention. The flow of the device association diagram 300, the power cable list 400, and the terminal wiring table 500 is generated based on the cable database 100 and the established cable list 200. The cable configuration planning method includes the following steps: S01: providing an input interface: an input interface is provided by the terminal device to provide an input operation by the user through an input tool such as a keyboard or a mouse, wherein the input interface requires the user to perform the first input step 1 according to the input interface. And the user may be further required to perform the second input step 2 and the third input step 3. For further reference to FIG. 3, in the embodiment, the first input step 1 includes inputting at least one specification selection instruction and at least one device data instruction. Specifically, the input interface preferably provides an associated cable number, cable type, cable size, or cable. The menu field of the cable data such as the number of the core, the menu field can correspond to the cable number, cable type, cable size or cable number stored in the cable database 100. The specification selection instruction refers to the selection instruction for selecting the cable number, cable type, cable size or cable number from the menu field of the input interface. For example, the cable number menu field can be displayed by displaying the pull menu. Cable number to provide the user with a choice. The input interface also provides a cable length and a setting field of the device number at both ends, and the setting field can be a blank field; the device data command refers to the input cable length and the numerical value of the device numbers at both ends in the setting field. Enter the command, that is, enter the length of the cable to be planned and the device number at both ends according to the actual requirements in the setting field.

S02: Establishing a cable list: after receiving the specification selection instruction and the device data instruction, the terminal device selects the instruction and device data instruction to generate a corresponding cable list 200 according to the specification, as a subsequent generation device association diagram 300, power Basic information of cable list 400 and terminal wiring table 500.

S03: Establishing a device association diagram: Referring to FIG. 4, after the cable list 200 is established, the terminal device can generate a corresponding device association diagram 300 according to the cable list 200, which is mainly in the cable list 200. The cable data is copied and sorted, and is arranged into a cable configuration diagram between each device (such as device 1, device 2, ..., device 5). More specifically, the step of establishing the device association map is to first distinguish the cable data in the cable list according to the power cable data and the control cable data, and then perform the differentiated cable data according to a preset order definition. Sort between to generate the device association graph 300.

S04: Establish a power cable list: Please refer to FIG. 3 again. After the cable list 200 is established, the input interface provided by the terminal device may further require the user to perform the second input step 2, that is, request the user to input. The at least one circuit data command causes the terminal device to generate a corresponding power cable list 400 with the cable list 200 according to the circuit data command. Specifically, the input interface can provide a power menu field associated with the current, the operating voltage, or the power distribution form, and the power menu field is linked to the current, working voltage, or power distribution form data stored in the cable database 100; Refers to the selection command for selecting current, operating voltage, or power distribution from the power menu field of the input interface. The terminal device can then organize the output into the power cable list 400 based on the selected current, operating voltage or power distribution format and the cable list 200. In more detail, since the cable data of the cable database 100 is divided into the power cable data and the control cable data, and the power cable list 400 only refers to the power cable data, the step of establishing the power cable list is first screened out from the cable list 200. The cable number, cable type, cable size or cable number data of the power cable data is associated with the current power cable list 400 corresponding to the current, operating voltage or power distribution form data selected by the circuit data command. In addition, in this embodiment, the step of establishing a power cable list further includes a voltage drop calculation step of first calculating a unit length impedance corresponding to the cable according to the cable type and the cable size, and then matching the current provided by the circuit data instruction, The working voltage and the power distribution form data are calculated to generate a corresponding percentage of the voltage drop value, and are listed in the power cable list 400, wherein the pressure drop value percentage can be displayed by different colors to remind the user of the configured cable line. Whether the voltage drop complies with electrical regulations, such as electrical regulations requiring voltage drop It needs to be less than 3%. If the calculated pressure drop value percentage is greater than 3%, the pressure drop value percentage is displayed in red font.

S05: Establishing a terminal wiring table: Referring to FIG. 5, after the cable list 200 is completed, the terminal device can generate a corresponding terminal wiring table 500 according to the cable list 200, which is mainly in the cable list 200. The cable data is copied and judged to produce a terminal wiring table that provides the terminal data input field of the terminal block number, terminal number and line number. Specifically, the step may be: determining the number of columns required for the cable in the terminal wiring table according to the number of cores of the cable corresponding to the cable data, and further generating a terminal data input field corresponding to the number of columns in the terminal wiring table; for example When the corresponding cable is a PVC control cable, the number of cable cores is labeled "12/C" (C is CORE abbreviation), indicating that there are 12 wires in the cable. The cable requires 12 columns of terminal data input fields in the terminal wiring table. Enter the terminal block number, terminal number, and wire number; when the corresponding cable is the IPVV control cable, the cable number is 3/P (P is PAIR abbreviation), indicating that there are 3 sets of small cables in the cable, each set of small cables There are 3 wires included in the isolation wire. Therefore, the cable needs 9 columns to input the terminal block number, terminal number and wire number. When the corresponding cable is the ITVV control cable, the cable number is 7/T (T is TRIPLE). The abbreviation indicates that there are 7 sets of small cables in the cable. Each set of small cables contains 4 wires for the isolation line. Therefore, the cable needs 28 columns in the terminal wiring table to input the terminal block number, terminal number and line number. After the terminal wiring table is generated, the user can perform the third input step 3 through the input interface to input at least one terminal data command in the terminal data input field generated by the terminal wiring table; wherein the terminal data command refers to the terminal Enter the value of the terminal block number, terminal number and line number in the data input field. instruction.

It should be noted that the steps S03 to S05 for establishing the device association diagram 300, the power cable list 400, and the terminal wiring table 500 are not prioritized, and may be determined according to actual settings of the terminal device or user requirements.

Since the device association diagram 300, the power cable list 400, and the terminal wiring table 500 are all based on the established cable list 200, and are directly processed by the terminal device after a small number of input commands, it must be artificially compared with the prior art. The method is easy to produce human error according to the column and classification of the cable specification table, and the manual cable check operation is easy to cause human error. The above cable configuration planning method can effectively help reduce the operation time of cable configuration planning and reduce the probability of manual processing errors. .

In summary, the present invention mainly provides a cable configuration plan by providing an input interface of a user terminal device, directly generates a cable list according to an input command, and generates a corresponding power cable list and device association map according to the cable list and other related commands. And the terminal wiring meter can greatly improve the processing efficiency of the traditional cable list, power cable list, terminal wiring table and equipment association diagram and reduce the human error.

The present invention has been disclosed in its preferred embodiments, and is not intended to limit the invention, and the present invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection is subject to the definition of the scope of the patent application.

100‧‧‧ Cable database

200‧‧‧ cable list

300‧‧‧Device association diagram

400‧‧‧Power cable list

500‧‧‧Terminal Wiring Table

1‧‧‧ first input step

2‧‧‧Second input step

3‧‧‧ third input step

Claims (10)

A cable configuration planning method is performed by connecting at least one terminal device to a cable database, wherein the cable database stores cable data, and the cable configuration planning method comprises the following steps: providing an input interface, requiring the user to follow the input interface Enter at least one specification selection instruction and at least one equipment data instruction; establish a cable list, select a command and device data instruction to generate a corresponding cable list according to the specification; and establish a device association diagram, and generate a corresponding device according to the cable list Association diagram. The cable configuration planning method according to claim 1, wherein the input interface provides a menu field associated with a cable number, a cable type, a cable size, or a cable number, and the menu field is linked to the cable database. Cable number, cable type, cable size or cable number data; the specification selection command refers to the selection command for selecting the cable number, cable type, cable size or cable number from the menu field of the input interface. The cable configuration planning method according to claim 1, wherein the input interface provides a cable length and a setting field of device numbers at both ends; the device data command refers to input cable length and two in the setting field. The numeric character input instruction of the end device number. The cable configuration planning method of claim 2, wherein the step of providing an input interface further requires the user to input at least one circuit data instruction; the cable configuration planning method further includes: A power cable list is created, and a list of power cables corresponding to the cable list is generated according to the circuit data command. The cable configuration planning method as described in claim 4, wherein the input interface further provides a power menu field associated with the current, the working voltage, or the power distribution form, wherein the power menu field links the current stored in the cable database, and works. Voltage or power distribution form data; the circuit data command refers to the selection command for selecting current, operating voltage or power distribution form from the power menu field of the input interface. The cable configuration planning method according to claim 5, wherein the cable data of the cable database is divided into power cable data and control cable data; the step of establishing a power cable list is to first filter the power from the cable list. The cable number, cable type, cable size or cable number data of the cable data, together with the current, working voltage or power distribution form data provided by the circuit data command, generates a corresponding power cable list. The cable configuration planning method according to claim 6, wherein the step of establishing a power cable list further comprises a voltage drop calculation step, which first calculates a corresponding unit length impedance according to the cable type and the cable size, and then cooperates with the The current, operating voltage and power distribution form data provided by the circuit data command are calculated to generate a corresponding percentage of the voltage drop value and listed in the power cable list. The cable configuration planning method according to claim 1, wherein the cable data of the cable database is divided into power cable data and control cable data; the step of establishing a device association diagram is to follow the cable data in the cable list. The power cable data is distinguished from the control cable data, and then the zone is defined according to a preset order The sorted cable data is sorted to generate the device association map. The cable configuration planning method according to claim 1, wherein the cable configuration planning method further comprises a step of generating a terminal wiring table, wherein the step is based on the cable list and the cable number data in the cable database. The corresponding terminal wiring table is generated; the generated terminal wiring table provides the terminal data input field of the terminal block number, the terminal number and the line number. The cable configuration planning method according to claim 1, wherein the cable database is built in a server, and the terminal device is connected to the server through a network; or the cable database is stored. In the terminal device.