JP5312167B2 - Low voltage service line design management method by map information system. - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To display the length of a lead-in wire on a screen, to immediately display when the wiring direction is varied, to immediately display calculation when the content of the construction is changed by promoting a cooperation with calculation related to facility conditions of lead-in wire construction together with map information, to improve the efficiency of construction work, and furthermore, to respond to facility management after the completion of the construction. <P>SOLUTION: While referring to necessary information stored in a database 40 on the basis of the laying design such as a laying route of a low-voltage lead-in wire, a low-voltage lead-in wire design management method displays a calculation result whether the relevant lead-in wire matches the connection facility conditions on a computer processing screen 100 together with map position information 4. The method further displays detailed information related to the length of the wiring of the lead-in wire the number of electrical poles, positions of the electrical poles, houses of customers, and roads by means of layer control on the computer processing screen 100. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

The present invention relates to a technology that supports design management work when laying a low-voltage lead-in line, and in particular, to construct a low-voltage lead-in line, a new distribution line, a transfer line, a re-stretching, and a removal work between a utility pole and a customer's house the work plan for relates to a low pressure drop cable design management method by the map information system to design control using a computer system related to a map.

  There are various types of construction for service lines. For example, supply work to newly install service lines associated with new contracts by customers, rebuilding utility poles, obstructing work to relocate service lines such as passing over service lines, poor work to replace service lines due to deterioration of existing service lines, voltage improvements, etc. There are changes in the service method, reinforcement work such as redrawing service lines, and removal work that removes service lines due to the abolition of customer contracts.

  There are various types of construction methods in the lead-in line construction, such as direct drawing-in method, indirect drawing-in method, articulated drawing-in method, inter-post messenger drawing-in method, one-side messenger drawing-in method, and lashing wire drawing-in method. For example, the direct pull-in method is a construction method for direct pull-in from a utility pole. The indirect pulling method is a construction method for pulling in via a short pole of a telephone line. The connection pull-in method is a construction method for pulling in via an adjacent house. The inter-post messenger pull-in method is a construction method in which a steel stranded wire is stretched between power poles and supported by a hanger and pulled in from the middle of the span. The one-side messenger pull-in method is a construction method in which a steel wire is stretched from the middle of a span using a house and a utility pole on one side. The lashing wire pull-in method is a construction method in which electric wires are bundled with a lashing wire and the aesthetics are considered.

  The service line construction that connects the utility poles and the houses of each customer is carried out in the following manner. For example, the service line work repair slip / work form or service line work work form or repair form as shown in FIG. 5 and a map as shown in FIG. At this time, use a computer terminal to enter the symbol, item code, and quantity related to service line construction. The work plan items include payment of construction costs including actual costs, license application fees, and special transportation costs to the construction company.

  After the completion of the service line construction, the service service pole unit is determined in cooperation with the service pole ledger, and the management of the power pole unit becomes possible. However, the management content is only for the content of the contract type, lamp (AA, AA), and power. In addition, it was unknown about the length of the lead-in line, the lead-in method, the type, the path from the utility pole to the house, and the age.

Various technologies related to a system for planning a construction work for laying a lead-in line are proposed. For example, as disclosed in Japanese Patent Application Laid-Open No. 2006-113692 of “Patent Document 1”, an underground cable conduit for laying (laying) underground cable leads of underground cable tracks An underground service management system for underground service lines, including an existing equipment database that covers existing equipment for underground cable tracks, an installation information database that covers information to be considered for laying underground cables, and various laws and regulations. A construction standard database covering construction standards and laws of equipment and a construction design database in which construction designs of other equipment of the underground cableway are accumulated, and a construction route for underground service lines, The laying of the underground lead-in wire with reference to the database based on the laying design and the laying design that at least defines the thickness and the number of cables to be laid Underground service line management with underground service line design means equipped with underground service line work design means to revisit the work design of other facilities when it is difficult A system has been proposed.
JP 2006-113692 A

  However, the above-mentioned “underground service line management system for underground cableway” in the above-mentioned patent document 1 efficiently designs a new service line installation work based on the existing service line installation design and other work design. However, it has a problem that it takes a lot of labor to input because it is a construction cost and material symbol design item code input design for lead-in wire design by a computer.

  In addition, in the design method using the data of the conventional map system, the supply method can be confirmed from the sales terminal for single-phase two-wire type, single-phase three-wire type, etc. It was not possible to manage the service line route. In particular, it did not correspond to facility management after the completion of the lead-in line work wired from the utility pole or distribution box to the customer's house.

The present invention has been developed to solve such problems. That is, the object of the present invention is to display the length of the lead-in wiring on the screen by connecting with the map information and the calculation related to the service condition of the service, and instantly when the wiring direction is changed. If there is a change in the work contents, the calculation can be displayed instantly, the work efficiency can be improved, and a low-voltage lead-in line design management method using a map information system that can handle equipment management after completion of the work is also provided. There is to do.

The present invention, construction of new distribution lines and utility poles and the consumers of the house in order to lay a low pressure drop line, relocation, replacement, for the work plan for carrying out the dismantling, map for design management by using the computer system on the map A low-voltage service line design management method using an information system , wherein the map information system connects map position information data (41) relating to the location of a consumer house and a power pole to which a low-voltage service line is connected, and a low-voltage service line to the power pole. Electric pole equipment information data (42) regarding the equipment conditions such as presence / absence of low-voltage service lines, presence / absence of service lines / pedestal facilities, and presence / absence of armor facilities for service, and service line types related to the thickness and number of cables of low-voltage service lines and information data (43), should be considered in order to lay the drop cable, the distance between the customer premises and the utility pole, the presence or absence of an obstacle, the house such as height And the drop cable laying information data about the information of the surrounding environment of the pillars and consumers of the house (44), construction standards for the various types of equipment, and construction work in the reference information data related to design and construction costs and compliance with laws and regulations (45), another low pressure drop line in the past a database of a computer work construction design management information data information has been accumulated for the design (46) is stored for laying (40), a central processing unit for performing arithmetic processing of the information in the database (40) and (30) An input device (10) used as a terminal and a display device (20, 100),
In the computer of the map information system, the utility pole / road, customer, electric wire input processing device (31) relates to the laying route of the low-voltage lead-in line, the type of laying work, the method, the thickness of the cable to be laid, and the number of stakes. based on the laying design, the reference to the necessary information stored in the database (40), equipment condition determination processing unit (32) determines whether the associated incoming line is adapted to connect equipment conditions, display data The generation processing device (34) displays the conformity determination result regarding the connected equipment condition on the computer processing screen (20 , 100 ) together with the map position information data (41), and further the display data generation processing device (34) The computer processing screen (20 , 100 ) includes detailed information on the length of the lead-in wiring, the pole number, the position of the pole, the house of the customer and the road Is displayed by layer control.
The equipment condition determination processing unit of the computer of the basis of the utility pole facility information data (42) the map information system (32), when determine constant whether they conform to equipment conditions that incoming line can connect, the first low pressure drop cable whether facility already been, then whether - units with line drop line is whether the facility already, the last to pull-in arm-to determine constant the equipment conditions at the facility has been whether or not the order, it is possible.

Or, for the work plan to carry out new construction, relocation, replacement, and removal work of the distribution line between the underground cable line and the customer's house in order to lay the low-voltage underground lead-in line of the underground cable line, a computer related to the map A low-voltage service line design management method using a map information system that is designed and managed using a system, wherein the map information system includes map position information data relating to the position of a customer's house and underground power line pole connected to a low-voltage underground service line (41) for supply related to equipment conditions such as presence / absence of low-voltage service line facilities , presence / absence of service lines / stand-by facilities, presence / absence of service terminal boxes and service branch facilities for connecting low-voltage service lines to customer's houses and distribution facility information data (47), and the drop cable type information data relating to the thickness and number of threads of the cable of the low pressure drop cable (43), should be studied to laying drop line The distance between the customers of the house and the low-pressure drop device and supply power distribution box, drop cable and laying information data (44) on the information of the surrounding environment of the presence or absence supply power distribution box and the consumers of the house, such as the obstacle, the construction of various types of equipment The computer of the construction design management information database (46) in which the construction standard information data (45) related to the standards, the design and construction costs and the laws and regulations to be observed and the information related to the construction design for laying other low-voltage service lines in the past are stored. a database (40), wherein a database central processing unit for performing arithmetic processing of information (40) (30), an input device used as a terminal (10), a display unit (20, 100) consists, said in the computer of the map information system, utility poles and road, consumers, wire input processing unit (31) is laid route of the low pressure drop cable, laying Thing type, based on the laying design for thickness and number of threads of the cables scheme and laid, the reference to the necessary information stored in the database (40), equipment condition determination processing unit (32) is the corresponding to drop line is determine constant whether the application meets the connecting equipment conditions, the display data generating processor (34), the connecting equipment conditions regarding the suitability determination result map location data (41) with a computer processing screen (20, 100 In addition, the display data generation processing device (34) displays on the computer processing screen ( 20, 100) the details of the position of the low voltage branching device, the position of the distribution box for supply, the house of the customer and the road. Information is displayed by layer control.
When the capital condition determination processing unit of the computer of the map information system on the basis of the supply power distribution equipment information data (47) (32), to determine the constant whether they conform to equipment conditions that incoming line can connect, first low pressure lead-in wire to see if the facility already been, then whether - units with line drop line is whether the facility already, the last to pull-in terminal box, pull-branch wire to determine constant the equipment conditions at the facility has been whether or not the order, it is possible.
Said computer processing screen (20, 100), when changing the wiring direction of the lower pressure drop cable, when there is a change in construction work, the display data generation processing unit of the computer of the map information system (34), the The calculation result obtained by calculating the length of the lead-in line can be displayed together with the map position information data (41).

In the method of the above configuration, the work plan for the work plan for carrying out new construction, relocation, replacement, and removal work of utility poles, supply distribution boxes and customer homes for laying low-voltage service lines is computerized. It can be processed quickly using the system. In particular, when a new service line is installed, the length of the wiring can be displayed on the display device 20 ( computer processing screen (100) ) and can be displayed instantaneously when the wiring direction is changed. The calculation can also be displayed instantly, and the construction can be performed accurately and easily. Since necessary information is stored in the database (40) in advance, it is not necessary to newly input the construction cost and the symbol design item code of the material at the time of lead-in line design, thereby reducing labor.

  Furthermore, in the present invention, since various types of information related to construction are stored in a database, facility management such as the type and length of the service line after the completion of the work, the service line route to the house side support point, and the like can be performed.

The low-voltage lead-in line design management method by the map information system of the present invention is stored in the database based on the low-voltage lead-in line laying route, the type of laying work, the method, and the laying design related to the thickness and number of cables to be laid. While referring to necessary information such as map position information, utility pole facility information, service line type information, etc., the computer processing screen displays the calculation result of whether the corresponding service line meets the connected facility conditions, together with the map information, and further the computer This is a design management method for displaying detailed information related to utility pole numbers, utility pole positions, customer houses and roads on a processing screen by layer control.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
Figure 1 is a block diagram illustrating a system implementing a low pressure drop cable design management method by the map information system definitive utility pole of Example 1.
System, conditions related to the work program of the construction of the distribution lines of the utility pole and customer homes to laying low pressure drop line, an input device for inputting data and the like to implement the definitive low pressure drop cable design management method to a utility pole of Example 1 10, central processing unit 30 for calculating presence / absence of incidental work necessary for low-voltage service line construction, distribution line length, necessary cable type, map position information data 41, utility pole facility information data 42, service line Type information data 43, service line laying information data 44, construction standard information data 45, database 40 storing information such as construction design management information data 46, and map information related to low voltage service line work calculated by the central processing unit 30 Display device 20 (computer processing screen 100) and main memory control device 50 for controlling main memory System.

  The input device 10 is configured by an information input device such as a keyboard and a mouse, and is used as a user interface. The display device 20 is configured by an information display device such as a liquid crystal display device. These input device 10 and display device 20 are preferably those that can be brought to the work site as portable terminals.

  The central processing unit 30 is constituted by an information processing device such as a CPU, for example, and is equipped with utility poles / roads for connecting a low-voltage service line to a power pole, a customer, a wire input processing device 31 and equipment necessary for low-voltage service line construction. An equipment condition determination processing device 32 for determining whether or not all of them, a construction design cost calculation processing device 33 for calculating design and construction costs and material costs, and a display data generation processing device 34 for generating data to be displayed on the display device 20 including.

The database 40 is constituted by an information storage device, and the map position information data 41 relating to the position of the customer's house and the utility pole connecting the low voltage service line to be constructed, and the utility pole equipment relating to the equipment conditions for connecting the low voltage service line to the utility pole. Information data 42, service line type information data 43 concerning the cable of the low-voltage service line, service line laying information data 44 regarding information on the surrounding environment to be considered for laying the service line, construction standards, design and construction costs of various facilities, and compliance It includes construction standard information data 45 relating to laws and regulations, and construction design management information data 46 in which information relating to construction design for laying other low-voltage service lines in the past is stored. Furthermore, various processing programs and processing data files are included.

  The “map position information” in the map position information data 41 means various types of information related to the position, shape, road state shape, width, and utility pole position of the customer who draws the low-voltage service line displayed on the map. To do. This “map location information” is created by a local government such as a prefecture or city, or based on a map such as a city plan using the survey results of the jurisdiction with the approval of the prefectural governor or mayor. It is a thing.

  “Pole equipment information” in the utility pole equipment information data 42 is equipment conditions such as whether or not a low-voltage line has already been installed on the utility pole, whether or not a low-voltage underline / pedestal line has been installed, and whether or not a retractable arm has been installed. It is information about. This is because when it does not conform to this equipment condition, it is necessary to carry out an outside line construction so that a lead-in line can be connected.

  In addition, if there is a single customer with multiple service lines such as electric lights and power, the “electric pole facility information” clearly indicates that the power outage section is not crossed or Tobishima, whether or not the service is being performed from the same bank. Whether or not it is possible, the lead-in line does not sandwich the support of other overhead electric lines, train lines or overhead light current lines, or penetrate between the wires of other overhead light current lines Information on whether or not equipment conditions are included.

  In addition, in the “electric pole equipment information”, the upper part of the planned construction site, the upper part of the customer's building that is not directly drawn in, whether it is a tree approaching point, It also includes information about whether the window, veranda, outdoor staircase, etc. are on the side of a place where people are always in and out of touch. This is because it is necessary to select a place where there is no possibility of causing a troubled relocation work in the future as well as economic and security, and to avoid a place where there is such a possibility as much as possible. In addition, about this equipment condition, it determines by the standard which the main body (electric power company, equipment company) which constructs establishes.

The “lead-in line type information” in the lead-in line type information data 43 is information relating to the thickness and number of strips of the low-voltage lead-in line. For example, in the case of an overhead lead-in wire, there is another type of DV2F and DV3R. The ^thickness, 2.6 mm, 3.2 ^mm, is ^{14mm 2, 22mm 2, 38mm 2} , 60mm 2 there.

  The “leading line laying information” of the lead-in line laying information data 44 refers to the power pole and the customer's house, such as the distance between the customer's house and the utility pole, the presence or absence of obstacles, and the height of the house, which should be considered for laying the service line. This is information about the surrounding environment. By the way, the service line facilities have the restrictions that they do not extend over an area exceeding 100m from the point of branching from the service line, do not cross roads exceeding 5m in width, and do not pass indoors.

  The “construction standard information” in the construction standard information data 45 is information relating to the construction standards, design and construction costs of various facilities, and laws to be observed. For example, it includes design costs and construction costs required to carry out lead-in wire work and incidental work so as to satisfy the above-mentioned equipment conditions, and laws and regulations to be observed when carrying out the work.

The “construction design management information” of the construction design management information data 46 is information in which information related to construction design for laying other low-voltage service lines in the past is accumulated. For example, it accumulates data for various past works and includes information necessary for its maintenance. Each of these pieces of information is stored in the database 40 in advance by, for example, operating the input device 10 by a person in charge of low-voltage service line work.

FIG. 2 is a flowchart showing an example of a low-voltage service line design management method.
As shown in this flowchart, when the construction design for laying a new low-voltage lead-in line is implemented, the laying construction type and method and the thickness of the cable to be laid are entered by inputting the laying route of the low-voltage lead-in line to be constructed. based on the laying designs for and the number of threads, with reference to the necessary information stored in the database 40 described above, the computer processing screen 100, the corresponding incoming line is the determine constant results whether to conform to the connection equipment conditions It is displayed together with the map position information 41.

When planning the low-voltage service line construction by the low-voltage service line design management system, the conditions regarding the utility poles input from the input device 10 by the operator's operation, for example, selection of the system such as the inter-column and messenger method, the equipment conditions in the central processing unit 30 The determination processing device 32 reads the utility pole facility information stored in the utility pole facility information data 42 and, together with the map position information stored in the map location information data 41, the facilities, low voltage lines, cross-arm for underline, cars with wire or pull, it is determined whether the already provided, et al., when not provided it makes another construction, a request for supplementary work.

  At this time, the construction method in the lead-in line work is determined according to the types of supply work, trouble work, defective work, strengthening work, and removal work for newly establishing the lead-in line with the new contract of the customer. Reads the status of each customer's house and its surrounding environment from the map position information, and displays whether it is a direct pull-in method, an indirect pull-in method, a connected pull-in method, a messenger pull-in method between pillars, a one-side messenger pull-in method, or a lashing wire pull-in method As a result, work efficiency is improved.

When the utility pole facility information data 42 facilities condition determination processing unit 32 based on to determine the constant whether they conform to equipment conditions that incoming line can be connected, for example, first, whether the low pressure drop cable Do facilities already, then drop cable-units with line The equipment conditions are calculated in the order of whether or not the equipment has been installed, and finally whether or not the pull-in metal is installed.

Next, the construction design cost calculation processing unit 33 in the central processing unit 30 is connected to the service line laying information stored in the service line laying information data 44, the work standard information data 45 stored in the work standard information data 45, and the work design management. The construction design management information stored in the information data 46 is read out, and together with the map position information stored in the map position information data 41, it is determined whether or not the conditions regarding the service facilities around the customer's house are satisfied. The calculation processing necessary for the construction design cost calculation is executed as it is.

  Furthermore, the length type of the distribution line is determined. Based on the determined length and type of distribution lines, the construction costs such as design costs and laying costs are calculated.

  Along with the map position information, a construction design management plan is generated from the distribution line length type and construction cost. It is displayed on the computer processing screen 100.

FIG. 3 shows an example of a computer processing screen.
In the low-voltage service line design management method of the present invention, detailed information 102 regarding the length of service lines, power pole number, power pole position, customer's house and road is separated from the map information 101 by layer control on the computer processing screen 100. indicate. As a result, on the computer processing screen 100, the area around the utility pole (the area around the customer) can be enlarged or reduced, and the construction on the map can be easily checked.

  The computer processing screen 100 displays the utility pole start point, that is, the position of the power generation substation. Here, the length corresponding to the scale size in the computer processing screen 100 is displayed as the length of the distribution line of the low-voltage lead-in wire. The lead-in method is selected, and the start point, middle point, and end point of the lead-in line are displayed on the map. At this time, additional information such as the material type “C-type sleeve” and “C-type sleeve cover” is input, and the instrument position is also input. The end point of the utility pole is determined.

Figure 4 is a block diagram illustrating a system for implementing the low-pressure drop cable design management method by the map information system definitive underground facility of Example 2.
System for implementing the low-pressure drop cable design management method definitive underground facility of Example 2 is substantially the same as in Example 1, different from the case of some airborne equipment in the second embodiment. In place of the utility pole facility information data 42, the distribution facility information data 47 for supply is stored in the database 40.

  The “distribution facility information for supply” in the distribution facility information data 47 for supply is information regarding facility conditions such as the presence or absence of a distribution box for supplying a low-voltage service line for connecting a low-voltage service line to a customer's house. That is, it is information regarding equipment conditions as to whether or not the lead-in terminal box and the lead-in branch wire in the underground equipment have been installed. This is because when it does not conform to this equipment condition, it is necessary to carry out an outside line construction so that a lead-in line can be connected.

In the case of underground lead-in wires, there are different types of CVQ, CVT, and CV electric wires. The ^thickness, there is a ^{14mm 2, 22mm 2, 38mm 2} , 60mm 2, 100mm 2, 150mm 2, 200mm 2, 250mm 2, 325mm 2, 400mm 2.

About the process of the low voltage service line design management method in underground facilities , it is the same as that of the case of the aerial low voltage service line mentioned above. Instead of a lead-in wire from the utility pole, it only becomes a lead-in wire from the distribution box for supply. Even at low pressure drop cable design management method by the map information system of the second embodiment, similar determine constant for conditions around the time of wiring the lead-in wire to the customer premises, the calculation is performed.

  In addition, the present invention can display the length of the lead-in wiring on the screen by connecting with the map information and the calculation related to the equipment condition of the lead-in work, and instantly displays it when the wiring direction is changed. If the construction contents are changed, the calculation can be displayed instantly, the efficiency of the construction work can be improved, and the equipment management after completion of the construction can be handled. Of course, various changes can be made without departing from the scope of the present invention.

The low-voltage service line design management method according to the map information system of the present invention can be used when a service line is wired from a utility pole or supply distribution box to a customer's house.

It is a block diagram which shows the system which implements the low voltage | pressure lead-in line design management method by the map information system in the utility pole of Example 1. FIG. It is a flowchart which shows an example of the low voltage | pressure lead-in line design management method. An example of a computer processing screen is shown. It is a block diagram which shows the system which enforces the low voltage | pressure lead-in line design management method by the map information system in the underground installation of Example 2. FIG. This is a conventional service line instrument repair form and construction form. It is an example of the map displayed on the computer processing screen.

DESCRIPTION OF SYMBOLS 10 Input apparatus 20 Display apparatus 30 Central processing unit 40 Database 41 Map position information data 42 Utility pole facility information data 43 Service line type information data 44 Service line installation information data 45 Construction standard information data 46 Work design management information data 47 Supply distribution facility information data 100 Processing screen (display device)

Claims (5)

Low pressure by a map information system designed and managed using a computer system related to maps for work plans for the construction, relocation, replacement, and removal of distribution lines between utility poles and customer houses to lay low-voltage service lines. A service line design management method,
The map information system includes map position information data (41) relating to the location of a customer's house and a utility pole to which a low-voltage service line is connected, presence / absence of a low-voltage service line facility for connecting a low-voltage service line to the utility pole, a service line / with a stand To install utility pole equipment information data (42) related to equipment conditions such as presence / absence of wire facilities and presence / absence of armor facilities for lead-in, lead-in line type information data (43) related to cable thickness and number of low-voltage lead- in wires, Service line laying information data (44) regarding information on the surrounding environment of the power pole and the customer's house, such as the distance between the customer's house and the power pole, the presence or absence of obstacles, the height of the house, and the construction of various facilities reference, design and construction costs and the construction reference information data about laws to comply (45), construction set of information about the construction type of laying the other low pressure drop cable has been accumulated in the past Management information data (46) is a database of stored computer (40),
It consists of a central processing unit (30) that performs calculation processing of information in the database (40), an input device (10) used as a terminal, and display devices (20, 100),
In the computer of the map information system, the utility pole / road, customer, electric wire input processing device (31) relates to the laying route of the low-voltage lead-in line, the type of laying work, the method, the thickness of the cable to be laid, and the number of stakes. Based on the laying design, referring to the necessary information stored in the database (40),
Equipment condition determination processing unit (32) determines whether the associated incoming line is adapted to connect equipment conditions,
The display data generation processing device (34) displays the conformity determination result related to the connected equipment condition on the computer processing screen (20 , 100 ) together with the map position information data (41),
Further, the display data generation processing device (34) performs layer control on the computer processing screen (20 , 100 ) for detailed information on the length of the lead-in wiring, the power pole number, the position of the power pole, the house of the customer and the road. A low-voltage service line design management method using a map information system, characterized by : When equipment condition determination processing unit of the computer of the map information system on the basis of the utility pole facility information data (42) (32), to determine the constant whether they conform to equipment conditions that incoming line can be connected,
First, whether low pressure drop cable is either facility already, then whether - units with line drop line is whether the facility already, the last to pull-in arm-to determine constant the equipment conditions at the facility has been whether or not the order, and wherein the claim A low-voltage service line design management method according to the map information system of Item 1. In order to lay a low-voltage underground service line for underground cables, a computer system related to maps will be provided for work plans for the construction, relocation, replacement, and removal of distribution cables between underground cables and customer houses. A low-voltage service line design management method using a map information system that is designed and managed using:
The map information system includes map position information data (41) relating to the position of a customer's house and the underground power line pole connected to the low voltage underground service line, and a low voltage service line for connecting the low voltage service line to the customer's house. Distribution equipment information data for supply (47) related to equipment conditions such as presence / absence of facilities, presence / absence of service lines / stand-by facilities , presence / absence of terminal boxes / service branch facilities, and cable thickness and number of wires for low-voltage service lines Service line type information data (43), the distance between the customer's house and the low-voltage branching device / distribution box for supply, and the presence / absence of obstacles that should be considered for laying the service line, and the customer's house other and drop cable laying information data (44) relating to information of the surrounding environment, construction standards of the various types of equipment, and construction reference information data about the design and construction costs and compliance to regulations (45), in the past the A database of a computer construction design management information database in which information about the construction design has been accumulated to lay low pressure drop cable (46) is stored (40),
It consists of a central processing unit (30) that performs calculation processing of information in the database (40), an input device (10) used as a terminal, and display devices (20, 100),
In the computer of the map information system, the utility pole / road, customer, electric wire input processing device (31) relates to the laying route of the low-voltage lead-in line, the type of laying work, the method, the thickness of the cable to be laid, and the number of stakes. Based on the laying design, referring to the necessary information stored in the database (40),
Equipment condition determination processing unit (32), whether the corresponding incoming line is adapted to connect equipment conditions to determine the constant,
The display data generation processing device (34) displays the conformity determination result related to the connected equipment condition on the computer processing screen ( 20, 100) together with the map position information data (41),
Further, the display data generation processing device (34) controls the computer processing screen ( 20, 100) on the layer control by using layer control on the position of the low voltage branching device, the position of the distribution box for supply, the house of the customer and the road. A low-voltage service line design management method by a map information system characterized by displaying. When the capital condition determination processing unit of the computer of the map information system on the basis of the supply power distribution equipment information data (47) (32), to determine the constant whether they conform to equipment conditions that incoming line can be connected,
First, whether low pressure drop cable is either facility already, then whether - units with line drop line is whether the facility already, the last to pull-in terminal box, pull-branch wire to determine constant the equipment conditions at the facility has been whether or not the order, that A low-voltage service line design management method using the map information system according to claim 3. Said computer processing screen (20, 100), when changing the wiring direction of the lower pressure drop cable, when there is a change in construction work,
The display data generation processing device (34) of the computer of the map information system displays a calculation result obtained by calculating the length of the lead-in wire together with the map position information data (41). 3. Low-voltage service line design management method using the map information system of 3.