JP4681894B2 - Kyocera management system - Google Patents

Description

  The present invention accepts and processes a joint application for transmission line facilities (electric wires, cables, etc.) from a third party operating an information communication business, etc., on an existing utility pole owned by an electric power company, etc. This is related to the collocation management system.

With the recent deregulation of the information and telecommunications field and the rapid development of the Internet, there are an increasing number of new business operators who intend to provide new information and communication services. It becomes a neck. On the other hand, large-scale electric power companies and telecommunications carriers have utility poles at various places to construct their own distribution lines and communication lines. Power poles are comprehensively established regardless of whether they are in urban areas or rural areas. Although they are privately owned, they are extremely public for building social infrastructure such as power and telephone networks. It can be said that it is a construct. Therefore, it is desirable to allow the new business operators to construct transmission line facilities using the existing power poles as long as they do not hinder the business purpose of the utility pole owner. From this point of view, large-scale electric power companies, etc. use transmission line equipment for third parties to provide services, such as power supply cables for CATV facilities, cables for eliminating TV viewing difficulties, and various communication services. It accepts co-mounting to install the provided optical fiber cable on the existing utility pole.

  By the way, when authorizing co-mounting to a third party as described above, it is necessary to investigate and examine various co-installation requirements. For example, it is necessary to investigate whether the strength and safety factor of the utility poles will be lost or whether the conditions of equipment-related laws and regulations will be satisfied when the transmission line equipment for the application is co-mounted. In addition, the space that can be secured for a single utility pole is limited due to restrictions such as securing the required ground clearance and securing the separation distance from the distribution line, and many new businesses have applied for it. If there is, it is necessary to consider a bundle of a plurality of cables installed in a limited number of co-mounted channels. Furthermore, it is necessary to confirm whether or not the racks can be mounted by confirming the actual status of the poles with respect to the utility poles.

Conventionally, for example, Patent Document 1 proposes a system in which data information and photographic information related to utility poles are made into a database and can be browsed via a network. When such a network system is introduced into a co-located management system, although convenience for obtaining utility pole information is improved, it is not possible to increase the efficiency of office processing for strength calculation. In particular, if there are multiple co-pending applications, it is necessary to consider strength calculation and bundling for subsequent applicants while taking into account the application validity period of the first applicant. It will be imposed on the utility pole owner (joint manager). Therefore, the actual situation is that no co-located management system that can efficiently process the calculation of the utility pole strength and the examination of the bundle has yet been proposed.
Japanese Patent Laid-Open No. 2002-230095

  The present invention has been made in view of the circumstances as described above, and in a co-located management system that accepts and processes co-installation requests for transmission line facilities from a third party other than the utility pole owner with respect to the existing utility pole. An object of the present invention is to provide a collocation management system that can efficiently process the calculation of the utility pole strength and the study of bundling.

Co-rack management system of the present invention, with respect to existing utility pole, a co call management system accept and process co racks offer the transmission line facilities from a third party other than the utility pole owner strip transmission line facilities The application information acquisition unit that accepts the collocation application information including the data that quantifies the number, outer diameter, and type, information related to the collocation channel and the existing gantry for the utility pole in association with the management number given to each utility pole Accepted by the utility information storage unit for storing various equipment information including information on objects, a memory unit for storing a strength calculation formula for calculating the utility pole strength based on a predetermined strength calculation program, and the application information acquisition unit based on the facility information stored co rack application information and the utility pole information storage unit, and an arithmetic processing unit that performs arithmetic processing for determining Kyoka possibility, the calculation processing unit, the intensity meter By substituting the value of the co-rack application information in the formula, the intensity calculation unit for transmission line equipment according to the both rack Overture calculates the load on the utility pole when it is Kyoka utility poles, a bundle of calculation program The transmission line equipment for the application for co-location is converted into data by converting the information on the co-located channel and the information of the existing co-installed object into data and performing the arithmetic processing by the bundled operation program. And a bundling determination unit that determines whether or not a plurality of transmission line facilities can be installed in a bundle by bundling.

  According to this configuration, in the calculation unit, the collocation application information accepted by the application information acquisition unit (usually including the designation information of a specific utility pole desired to be collocated) and the equipment stored in the utility pole information storage unit In association with the information, the strength calculation unit automatically calculates the power pole strength when the transmission line equipment for the application for co-location is laid on the power pole. Further, the bundle determination unit determines whether or not the two can be installed together by forming a plurality of transmission line facilities in one installed space.

In the above configuration, the utility pole information storage unit includes a pole image storage unit that stores image information indicating the pole state of each utility pole as an image file associated with the management number of each utility pole. in the determination, it is desirable to adopt a configuration including a display unit for displaying from the Sohashira image storage unit reads the predetermined image file (claim 2). According to this configuration, it is possible to confirm the actual installed pole state of the utility pole specified in the joint application on the display unit without confirming the site.

Moreover, the utility pole information storage unit includes a pole map information storage unit that stores arrangement information indicating the arrangement status of each utility pole as data associated with the management number and map information of each utility pole, and the pole map information It is desirable that the information read from the storage unit is provided with a display unit that superimposes and displays information on the management number of the utility pole specified in the collocation application information ( claim 3 ). According to this configuration, it becomes possible to confirm the arrangement status of the utility poles for the application for co-location on the map information, and it becomes possible to easily confirm the laying route of the transmission line facility of the co-application applicant on the display unit. .

Furthermore, the utility pole information storage unit includes a unique information storage unit for storing the unique information at the time of construction of each utility pole in association with the management number of each utility pole, and the unique information is determined when determining whether or not to mount the utility pole. It is desirable to provide a display unit that reads and displays predetermined specific information from the storage unit ( claim 4 ). According to this configuration, unique information at the time of building of each power pole, for example, special contracts at the time of building poles, site information, and the like can be appropriately displayed on the display unit and confirmed.

In addition, a collocated survey information input unit that inputs survey result information regarding the collocated state of the utility pole, and a collocated information storage unit that stores existing collocated information by the regular route, from the collocated survey information input unit It is desirable to have a configuration including an unauthorized collocation determination unit that determines the presence or absence of unauthorized collocation based on the given survey result information and the collocation information stored in the collocation information storage unit ( claim) Item 5 ). According to this configuration, the presence / absence of unauthorized collocation is determined by the unauthorized collocation determination unit based on the survey result given from the collocation survey information input unit and the collocation information read from the collocation information storage unit. Determined.

  According to the collocation management system according to claim 1, when there is a collocation application, the calculation of the utility pole strength when the transmission line equipment for the collocation application is installed, and whether or not the collocation is possible by bundling This makes it possible to improve the efficiency of the investigation and examination work for the collocation application.

According to the collocation management system according to claim 2 , since the actual pole state of the utility pole specified in the collocation application can be confirmed on the display unit without confirming the site, the transmission line for the collocation application When deciding on which position the equipment is to be installed, etc., it becomes possible to proceed quickly.

According to the coordinating management system according to claim 3 , since the installation route of the transmission line equipment of the cooperating applicant can be easily confirmed on the display unit, for example, based on information read from the pole map information storage unit By displaying the pole map and displaying the location of the power pole with the management number specified in the co-located application, it is possible to make proposals for setting the optimal route and check the power pole that is missing the co-located application.

According to the co-located management system according to claim 4 , unique information at the time of construction of each power pole, for example, special contract or site information at the time of construction pole can be easily confirmed. Can be extracted by searching, and it is possible to improve the efficiency of paperwork when determining whether or not to collateralize and determining the laying route.

According to the co-management system according to the fifth aspect , it is possible to manage the presence or absence of unauthorized co-mounting with this co-management system, so that more efficient and multi-faceted co-management can be executed. become.

  Hereinafter, embodiments of a co-located management system according to the present invention will be described in detail with reference to the drawings.

  First, “joint” as a management target in the present invention will be described. FIG. 1 is a perspective view showing an overhead line situation using utility poles 100a and 100b, and an example of a state where a distribution line 101 for power distribution and a transmission line facility 102 for information communication purposes are co-mounted. Show. “Coaxial” refers to utility poles 100a and 100b that have been built for the purpose of constructing a power distribution system using the distribution line 101 by a large-scale electric power company or the like by utilizing the free overhead space of the existing power poles 100a and 100b. This means that the transmission line facility 102 is installed later. There is a mode in which such large-scale power utilities themselves, such as telephone pole owners, install communication cables and the like (transmission path equipment) for the purpose of communications business, but third parties other than utility pole owners (CATV business) There is also an aspect in which a communication cable or the like is installed in response to a request from a user or various communication operators. The present invention is a collocation management system for collocation in the latter mode.

  The transmission line equipment 102 is separated by a predetermined distance (for example, 1 m or more) from the distribution line 101, which is a high-voltage part, in the height direction of the utility poles 100a, 100b, and has a predetermined ground height (for example, 6.4 m or more). It is installed using the reserved area (joint space). The transmission line equipment 102 is specifically a power supply cable for a CATV facility, a cable for eliminating TV difficulty viewing, an optical fiber cable provided for various communication services, and the like, and suitable attachment means in the co-located space It is constructed by providing and supporting.

  In the example shown in FIG. 1, a first arm 103 and a second arm 104 are attached in two steps at a predetermined separation distance in the space where the utility poles 100 a and 100 b are installed, An example is shown in which a total of four co-channels CH1 to CH4 are provided, and each transmission line facility 102 is supported by these co-channels CH1 to CH4.

  FIG. 2 is a diagram showing details of one shared channel CH1. The shared channel CH1 has a support structure composed of a messenger wire 1021 and ring-shaped hangers 1022 locked at both ends of the messenger wire 1021, and the transmission line equipment 102 is suspended by the support. It is configured to be mounted. Specifically, the messenger wire 1021 is suspended and supported by the first arm metal 103, and a hanger 1022 (a spiral hanger may be used in some cases) at a predetermined interval in the longitudinal direction of the messenger wire 1021. Are engaged, and the transmission path equipment 102 is constructed and supported by inserting the transmission path equipment 102 into the internal space of the ring-shaped hanger 1022.

  Further, FIG. 2 shows an example in which three transmission line facilities 102a and 102b103c are installed and supported on one common channel CH1. This is called “bundling” in the sense that a plurality of cables are installed in a bundled state. Such a bundle is necessary because the area of the co-located space is limited to an area that satisfies the requirements for ensuring ground clearance and separation from the high-pressure section, and the number of co-located channels is also limited. (Normally, about 4 channels are the limit), so one shared channel is used effectively.

  In some cases, a plurality of transmission line facilities 102 are installed in advance in a bundled state. However, the transmission line facilities 102 are additionally installed sequentially each time a co-installation application is made. There are many aspects. In other words, for example, in the state where the first transmission line facility 102a related to the co-application from the first user is supported and installed, the second transmission line facility 102b related to the co-application from the second user is shared. When the rack is accepted, the second transmission line facility 102b is inserted into the hanger 1022, and thereby the two transmission line facilities 102a and 102b are installed and supported in a bundled state. When such a bundling is performed, the subsequent second user needs to ask the first user for permission to bundling. This is because the additional installation may cause some damage to the transmission path equipment 102a of the first user, and such a bundled discussion is a matter of negotiation between users, and the utility pole owner ( A common practice is to create a list that identifies the bundled partner users and encourage the late-comer users to discuss the bundle.

  Next, a specific embodiment of the collocation management system according to the present invention will be described. FIG. 3 is a conceptual diagram schematically showing a party relationship when the co-located management system is actually applied. As shown in the figure, this system is generally used for the coordinating management according to the present invention held by a terminal owned by a co-located applicant (such as a telecommunications carrier) A and a utility pole owner B such as a large-scale electric power provider. It is operated by connecting a computer system capable of executing the system via a network such as the Internet. In other words, each of the cooperating applicants A1, A2, and A3 can access the cooperating management system constructed by the telephone pole owner B via the Internet or the like from the terminal owned by each cooperating applicant. Yes.

  The party on the side of the utility pole owner B receives, for example, a collocation application from the collocation applicant A, replaces it with predetermined collocation application information, and inputs it to the collocation management system according to the present invention B1 Based on the collocation application information input from the application window B1, the collocation management system is used to perform technical examinations, etc. to determine whether collocation is possible, and to perform related management B2 is an investigator B3 who conducts a field survey on whether or not unauthorized collocation is performed and inputs the survey results to the collocation management system.

  FIG. 4 is a block diagram showing the configuration of the collocation management system 1 according to the present invention. As described above, this system 1 accepts data information related to a co-located application transmitted from the co-application applicant's terminal 10 via the Internet 11, and includes a data transmitting / receiving unit 20, a management system main unit 30, It is composed of a utility pole information storage unit 40, a display unit 50 such as a display, an output unit 60 such as a printer, and a terminal 70 for inputting co-located survey information.

  The data transmitting / receiving unit 20 includes an application receiving unit 21, an application management information adding unit 22, an answer form generating unit 23, and an expense billing data generating unit 24. The application accepting unit 21 accepts data information regarding the coffering application transmitted from the terminal 10 of the cooperating applicant A via the Internet 11. In this application reception unit 21, a verification process is performed between the utility pole that is the subject of the co-pending application and the management number of the utility pole that the utility pole owner B manages in the database. In this verification process, unknown poles (for example, utility poles that are not owned by utility pole owner B or cases where utility poles that do not exist are specified in the co-pending application) are extracted, and if unknown poles exist Then, error information is transmitted to the terminal 10 of the cooperating applicant A.

  The application management information assigning unit 22 creates predetermined application information and adds the management information based on the co-pending application received by the application receiving unit 21 to create co-pending application information. Transmit to the main body 30. The information digitized here includes the management number of the utility pole for the co-pending application, the number of transmission line facilities (cables), the outer diameter, the type, and the attribute information of the applicant. The management information to be added includes an application order number for making it possible to deal with a plurality of co-pending applications, setting information for the acceptance valid period of this contract, and the like. The valid period is set to an appropriate period (for example, about two months), starting from the date of shipment of the reply to the co-pending application.

  The reply form generation unit 23 creates a reply form to the collocation applicant A in a predetermined form based on the collocation availability determination result executed in the management system main body 30. The reply form created by the reply form generation unit 23 is transmitted to the terminal 10 of the cooperating applicant A via the Internet 11. The cost billing data generation unit 24 calculates the generated cost based on personnel costs and the like necessary for calculating utility pole strength, creating reports, etc. using the collocation management system 1. The calculation result is printed out as an invoice from the output unit 70 and mailed to the cooperating applicant A. Note that this invoice may also be sent out as electronic information via the Internet 11.

  The management system main unit 30 includes an application information acquisition unit 31, a display instruction unit 32, a calculation processing unit 33, a cooperating availability determination unit 34, a bundled partner data generation unit 35, a data rewrite instruction unit 36, and an unauthorized coherence determination. A unit 37 and a memory unit 38 are provided.

  The application information acquisition unit 31 includes a RAM or the like, receives the collocation application information transmitted from the application management information adding unit 22, and temporarily stores it. The collocation application information stored in the application information acquisition unit 31 is appropriately read out at the time of calculation processing in the calculation processing unit 33 or by a read signal from a predetermined part. The display instruction unit 32 includes a keyboard, a mouse, and the like. The display unit 50 displays the above-mentioned application information, or displays a result of automatic pole strength automatic calculation, an answer to whether or not to install the column, a pillar photo, a pole map, etc. An instruction signal for giving a signal is given.

  The arithmetic processing unit 33 performs arithmetic operations for determining whether or not to install a rack based on the collocation application information and the facility information about the utility pole stored in the utility pole information storage unit 40 (a facility information storage unit 42 described later). This unit performs processing, and includes an intensity calculation unit 331, a bundling determination unit 332, and a co-located simulation setting unit 333.

  The strength calculation unit 331 automatically calculates the utility pole strength when the transmission line facility for the request for co-location is installed on the utility pole. Specifically, with regard to the load that the overhead transmission line equipment exerts on the utility pole, the wind pressure load and safety specified by the relevant laws and regulations (for example, Article 6 of the Ordinance for Enforcement of Wired Telecommunications Equipment Ordinance, Article 32 of the Electrical Equipment Technical Standard, etc.) The strength calculation unit 331 reads a predetermined calculation formula stored in the memory unit 38, which will be described later, and substitutes a numerical value obtained from the collocation application information into this calculation formula to calculate the utility pole strength. Calculate automatically.

  The bundling determination unit 332 determines whether the bundling can be performed by bundling with respect to one common space (any one of the above-described common channels CH1 to CH4). In actual operation, even if there is no problem in the utility pole strength, there is a case where it is not possible to accept the collocation because of the limitation of the collocation space. If there is a complete vacancy in the rack channels CH1 to CH4, the bundling itself is not necessary), and if the bundling is performed, it is determined whether or not the racks can be stacked. Specifically, based on the information about the co-located channel stored in the facility information storage unit 42 and the existing co-located information stored in the co-located information storage unit 45 described later, the calculation of whether or not the bundle is necessary is performed. Is done.

  Even if the co-simulation simulation setting unit 333 actually does not have the co-transmission transmission line equipment installed on the power pole, the co-simulation simulation setting unit 333 assumes that it is installed on the strength calculation unit 331 and the bundle determination unit 332. An information environment that can perform arithmetic processing is generated. For example, in the case where there is a second co-located application in the state where the first co-installed application already exists, the calculation process is performed on the co-located application information related to the second co-installed application. Even if the transmission line facility for the first co-pending application is not actually installed, it is assumed that it is installed and that the arithmetic processing can be performed. Specifically, the effective period information set in the application management information granting unit 22 is read from the application information acquiring unit 31 (confirmation of whether or not there is a prior co-pending application during the application effective period for the utility pole), applicable If there is a preceding application (first co-offering application) to be performed, the preceding application information is added to the facility information read from the facility information storage unit 42 to be corrected. In this case, the intensity calculation unit 331 and the bundling determination unit 332 perform a predetermined calculation process based on the correction information.

  Based on the calculation processing result by the calculation processing unit 33 and the unique information of each power pole stored in the unique information storage unit 44 to be described later, the collocation availability determination unit 34 determines all the power poles specified in the collocation application. Then, the determination result data of whether or not it can be mounted together is created. Specifically, the collocation availability determination unit 34 uses, for example, a determination element database that is a basis for the categorization determination stored in the memory unit, and determines whether the above-described strength calculation result is within a predetermined threshold or whether the collocation inhibition factor By calculating / identifying whether or not there is site information to be determined, determination result data on whether or not the collocation is possible is created.

  The bundling partner data generation unit 35 generates data in which the electric poles are associated with the co-located user names for the electric poles that are determined as “can be collocated by bundling” by the bundling determination unit 332. To do. As described above, this is data for notifying a late-coming user of a partner for a bundling negotiation. Specifically, the bundling partner data generation unit 35 reads the collocated information including the collocated user name stored in the collocated information storage unit 45 in association with the management number of the utility pole that needs to be bundled. Then, data associating each telephone pole with the co-located user name is generated. This bundled partner data is attached to an answer document created by the answer form generator 23.

  The data rewrite instruction unit 36 gives rewrite instructions for various types of information stored in the utility pole information storage unit 40. For example, after the application for collocation is approved and the transmission line facility is actually laid, the collocated object information stored in the collocation information storage unit 45 is updated according to the current state after laying.

  The unauthorized collocation determination unit 37 receives the survey result information given from the terminal (collapsed survey information input unit) 70 from the unauthorized collocation surveyor B3, and stores the existing collocation information by the regular route. From the co-located information storage unit 45, the co-located information on the corresponding utility pole is read out, and the presence or absence of unauthorized co-mounting is determined by comparing the two.

  The memory unit 38 includes a ROM, a RAM, and the like, and stores data, programs, and the like necessary for the operation of the co-located management system. For example, the calculation formula of the strength calculation used in the calculation process in the strength calculation unit 331, the determination element database (for example, the pass value of the strength calculation and the safety factor, which is the basis of the determination of availability in the co-mountability determination unit 34, Stored in a table for each).

  The utility pole information storage unit 40 includes a ROM, a RAM, and the like in which various types of information regarding the utility pole are stored. The utility pole image storage unit 41, the facility information storage unit 42, the pole map information storage unit 43, the unique information storage unit 44, The rack information storage unit 45 and the unauthorized co-mounting information storage unit 46 are provided.

  The pole image storage unit 41 stores the image information indicating the pole state of each power pole as an image file associated with the management number of each power pole. This image file is read from the columnar image storage unit 41 in response to an instruction signal from the display instruction unit 32 and displayed on the display unit 50, for example, when determining whether or not co-mounting is possible. In practice, the pole state of the power pole is evaluated on the image file display screen, and the above-mentioned collocation availability determination unit 34 automatically considers the arrangement status of power devices such as transformers and high-voltage cutouts and the surrounding environment. The validity of the processed judgment result is confirmed.

  The facility information storage unit 42 stores, for each electric pole, specification information about the used pole and detailed information about the pole mounted on the electric pole. Specific examples of the former include information such as column length, column type, mold injection method, material, and soil quality of building column points. Specific examples of the latter include information such as the type of the power distribution line that is wired, the covering material, the outer diameter, the number of strips, the installation status of the electrical equipment, and the like.

  The pole map information storage unit 43 stores arrangement information indicating the arrangement status of each power pole and data associated with the management number of each power pole and map information. This pole map information is used to propose optimal route settings and check for missing applications. That is, when these processes are performed, the information is read from the pole map information storage unit 43 by an instruction signal from the display instruction unit 32, and the pole map information is displayed on the display unit 50. If the information about the management number of the utility pole specified in the application information is superimposed on the pole map information and displayed, the status of the installation of the utility pole can be visually confirmed on the map information. Thus, the laying route of the transmission line equipment of the co-located applicant can be easily confirmed on the display unit 50.

  In the unique information storage unit 44, unique information at the time of building of each utility pole is stored in association with the management number of each utility pole. The unique information is read from the unique information storage unit 44 by an instruction signal from the display instruction unit 32 and displayed on the display unit 50 when determining whether or not to allow co-mounting. The specific information is, for example, whether the pillar is a public land or a private land (if it is a private land, the consent of the landowner is required when performing parallel mounting). Whether a special agreement was concluded. Such special contracts at the time of building pillars, site information, and the like are appropriately displayed on the display unit 50 at the time of determining whether or not they can be mounted together.

  The collocated information storage unit 45 stores various types of information related to collocated. For example, the collocated channel, the name and attribute information of the collocated user, the number of striped cables, the outer diameter size, the line type, and the like are stored in association with each telephone pole management number. Various types of collocation information stored in the collocation information storage unit 45 are read out during calculation processing by the calculation processing unit 33 and the unauthorized collocation determination unit 37, when data is generated by the bundled data generation unit 35, and the like. Further, it is updated by a rewrite instruction signal from the data rewrite instruction unit 36.

  The unauthorized collocation information storage unit 46 stores the investigation result information on the unauthorized collocation provided from the terminal (the collocation survey information input unit) 70 and the determination result of the presence or absence of unauthorized collocation by the unauthorized collocation determination unit 37. The This information is used in managing the unauthorized permission correction situation. When a predetermined correction process is completed, a specific identification code is given to the data file and stored.

  The operation of the collocation management system 1 configured as described above will be described. FIG. 5 is a flowchart showing a processing flow in the case where there is a co-installation application, and FIG. 6 is a block diagram for explaining a data distribution state in the co-installation management system 1. Hereinafter, the processing flow and the data distribution status will be described in association with each other based on these drawings.

  The beginning of execution of the flow is a joint application via the Internet 11 from the terminal 10 of the joint applicant A (step S11). At the time of this co-installation application, the co-installer A transmits the predetermined application details such as utility poles, the number of transmission line facilities, the outer diameter, and the wire type that are desired to be co-mounted. Such a joint offer is sequentially received by the personal computer (the application receiving unit 21 of the data transmitting / receiving unit 20) owned by the application counter B1.

  The application reception unit 21 performs a collation process between the utility pole that is the subject of the co-pending application and the management number of the utility pole that the utility pole owner B manages in the database, and checks the unknown pole. Further, the application management information adding unit 22 digitizes predetermined necessary information on the basis of the application detail information received by the application receiving unit 21 and adds management information such as application order information. The joint application information is created (step S12). Such collocation application information is transmitted to the management system main body 30 owned by the collocation manager B2.

  The collocation application information is received by the application information acquisition unit 31 and temporarily stored. The information stored at this time includes the utility number management number D1 for the utility application, the application detail information D2 for the transmission line equipment, and the like (see FIG. 6). Then, the management number D1 and the application information detail information D2 are sent to the arithmetic processing unit 33 according to the operation signal of the operator, and the facility information of the utility pole stored in the facility information storage unit 42, that is, the specification information M2 regarding the column. Further, detailed information M3 of the columnar article is read out, and a calculation process for determining whether or not to mount the column is performed (step S13). Specifically, the strength calculation program P1 stored in the strength calculation unit 331 applies the value of the collocation application information and the facility information to the calculation formula P3 of the strength calculation stored in the memory unit 38 to perform the calculation. Processing is performed and the utility pole strength and safety factor are automatically calculated.

  Further, by using the bundling calculation program P2 stored in the bundling determination unit 332, the detailed information M3 (mounting channel information) of the columnar object and the existing coplanar stored in the collocation information storage unit 45 are stored. With reference to the object information M4, the calculation of whether or not the bundle is necessary is performed. If the bundling determination unit 332 determines that “bundling is possible with bundling”, the bundling partner data generation unit 35 determines the management number of each utility pole, Is created.

  Here, if there is a previous collocation application (the first collocation application) that is not yet collocated for the utility pole for the collocation application, but is still valid, The calculation processing related to the collocation application (second collocation application) is based on the information environment set by the collocation simulation setting unit 333 as assuming that the transmission line facility for the first collocation application exists. Done. In addition, when the second co-located application is processed, whether or not the first co-installed application exists depends on the application order information included in the application information detailed information D2 and the utility pole for the co-located application. This is determined by the presence / absence of the set expiration date information D3 (for the first co-pending application). If it is determined that there is a first collocation application, the information M5 of the application collocated object stored in the collocation information storage unit 45 is read in association with the management number of the utility pole and bundled. Necessity calculation is performed.

  Next, based on the calculation processing result, whether or not the co-installation possibility determination unit 34 considers various factors determines whether or not it is possible (step S14). That is, by using the determination element database which is the basis of the determination of availability stored in the memory unit 38, the above-described strength calculation result is within a predetermined threshold or can be accommodated in the co-located channel. (Whether co-mounting is possible by bundling) is determined. The first factor to be taken into account as the various factors is the unique information M7 of each utility pole stored in the unique information storage unit 44, and it is confirmed whether the unique information that is a co-hindering factor exists for the utility pole. The Here, if it is determined that the utility pole strength is insufficient, the collocated channel has no vacant space, or that there is specific information that causes the collocation, the collocated channel must be determined to be collocated. become.

  On the other hand, when it is determined by the collocation availability determination unit 34 that the collocation is possible, the column image file M1 of each utility pole is stored from the column image storage unit 41 in accordance with an instruction signal from the display instruction unit 32 given by the operator. Is read in association with the utility pole management number, and displayed on the display unit 50 as a pole image S3. The operator evaluates the mounted column image S3, and the validity of the determination result automatically processed by the cooperating availability determination unit 34 is confirmed. Further, the pole map information M6 is read from the pole map information storage unit 43, and is similarly displayed on the display unit 50 as a pole map image S4, so that the laying route is confirmed and the confirmation of omission of joint application is performed. At this time, it is preferable to add and display the location of the utility pole with the management number specified in the co-located application because confirmation of omission of the co-located application can be performed easily and reliably.

  Based on the processing results of the above steps, a survey result report regarding the availability of co-mounting and pre-survey cost data generated by execution of such a pre-survey operation are created (step S15). Specifically, a first data file for the automatic calculation result of the utility pole strength created by the arithmetic processing unit 33, and a second data file for the collocation availability determination unit created by the collocation availability determination unit 34, Is transmitted to the response form generation unit 23 of the data transmission / reception unit 20, and the response form generation unit 23 generates a reply form to the cradle applicant A in a predetermined form. Further, the preliminary survey cost data is created by the cost billing data generation unit 24 based on the collocation application information given to the application information acquisition unit 31. The preliminary survey cost data is printed out from the output unit 60 as a bill N. Then, the answer is transmitted as an electronic information file to the terminal 10 of the cooperating applicant A via the Internet 11, and the bill N is mailed (step S16).

  In addition, the first data file for the automatic calculation result of the utility pole strength and the second data file for the determination of whether or not the collocation is possible are displayed as a utility pole strength automatic calculation result display image S1 and a collocation propriety answer display image S2, respectively. It can be displayed on the display unit 50 in accordance with an instruction from the unit 32. FIG. 7 shows an example of a utility pole strength automatic calculation result display image S1, and FIG.

  The utility pole strength automatic calculation result display image S1 shown in FIG. 7 includes, for example, a utility pole management number display unit 81, a support display unit 82, a pole display unit 83, a collateral display unit 84, an automatic calculation result display unit 85, an automatic A calculation result determination display unit 86, a comprehensive determination result display unit 87, a photo display icon 88, and the like are provided.

  In the utility pole management number display portion 81, the management number assigned to the utility pole to be calculated is displayed. Various types of information associated with the management number are displayed on the display image S1. In other words, on the support display unit 82, the specification information M2 related to the pole for the utility pole related to the management number is read from the facility information storage unit 42, and specific data (the length and type of the pillar, etc.) is displayed. Is done. Similarly, specific data of the detailed information M3 on the pillar is displayed on the pillar display unit 83.

  As shown in the figure, in the collocated object display unit 84, which collocated position (cold channel) is laid on which collocated user's transmission line equipment (cable), and the number of laid-out cables And what kind of outer diameter is displayed based on the information M4 of the existing installed object stored in the installed information storage unit 45. In addition to this, not only the existing laid-off object but also information related to the linking process at the application stage that has not been laid-out yet (as described above, the application information for the application within the validity period) Is displayed based on the information M5. In this embodiment, since such a data processing form is adopted, even if a plurality of co-located applications are duplicated for the same utility pole, virtual calculation processing is performed with consideration of the rank of the co-located applications. There is an advantage that can be done.

  The automatic calculation result display unit 85 displays details of the intensity calculation result by the intensity calculation unit 331. The automatic calculation result determination display unit 86 displays the automatic determination result by the collocation availability determination unit 34. Furthermore, in addition to the automatic determination result, the comprehensive determination result display unit 87 displays the comprehensive determination result in consideration of various requirements such as the evaluation result of the mounted column image S3. The photo display icon 88 is used to access the mounted column image file M1 and display the mounted column image S3 on the display unit 50 when clicked.

  Next, the cooperating availability display image S2 shown in FIG. 8 includes an applicant information display unit 91, a result display unit 92, a detailed display unit 93 for each utility pole, and the like. The applicant information display unit 91 displays the attribute information of the cooperating applicant A in association with the receipt number given by the application accepting unit 21 at the time of accepting the cohort application.

  The result display unit 92 displays the overall result of determining whether or not to install the utility poles for all the utility poles to be applied for the extension. Here, the results displayed on the comprehensive judgment result display unit 87 for each individual power pole are displayed after addition processing. The result display unit 92 is provided with an expiration date display unit 921, which displays the expiration date at which the collocation applicant A who has received this reply can make the application for collocation. The expiry date specified here is the expiry date information D3 shown in FIG. 6, and if there is a co-pending application for the same utility pole later in this valid term, “Replyable” is indicated in the answer sheet. The installed utility poles are treated as existing transmission line facilities.

  In the detail display section 93, the utility pole site type column 932, the bundled partner code number column 933, and the individual availability of the collocation are displayed separately for each management number of the utility pole (the display column of the sign 931) subject to the application A determination result column 934 and a remarks column 935 are displayed in a matrix. Information read from the unique information M7 of the utility pole stored in the unique information storage unit 44 is displayed in the type column 932 of the utility pole site. In the code number column 933 of the bundling partner, information read from the information M4 of the existing collocated object and the information M5 of the application collocated object stored in the collocated information storage unit 45 is displayed. In the individual determination result column 934, the determination result of whether or not the collocation is possible for each power pole is displayed. In the remarks column 935, special instructions for determining availability are marked, and reference information based on the unique information M7 of the utility pole is displayed here.

  Further, a bundled partner list display icon 936 is attached to the detail display section 93, and when the icon 936 is clicked, a list screen 94 of co-located user names that are bundled partners is displayed. It has become so. The data that enables such display is created by the bundling partner data generation unit 35 as described above. In the present embodiment, since such a data processing system is incorporated, the bundled partner list (necessary when the cooperating applicant A conducts a bundled discussion with the existing co-located user or the like at a later date ( (Bundling instructions) can be automatically output, so that the efficiency of paperwork can be improved.

  Returning to the flowchart of FIG. 5, the co-application applicant A who has received the reply written in the above steps receives the application for the co-application (step S17). At this time, it is assumed that the discussion with the bundled partner is completed on the side of the co-located applicant A. Note that if the expiration date specified in the reply document has passed, it will not be accepted in step S17.

  When this application is accepted, it is confirmed whether or not the payment for the pre-investigation cost required for preparing the reply is completed (step S18), and if the payment is completed (Yes in step S18) The process proceeds to the step of creating and fastening (step S19). When the cooperating contract is completed, the construction of the transmission line equipment owned by the cooperating applicant A to the utility pole is carried out (step S20). Specifically, a construction for inserting the transmission line equipment 102 through the hanger 1022 of the co-located channel CH1 as shown in FIG. When such construction is completed, a completion survey is performed (step S21), and the survey result is digitized and provided to the data rewriting instruction unit 36. Then, the data rewriting instruction unit 36 updates the co-located object information stored in the co-located information storage unit 45 in accordance with the current state after laying (step S22). This completes a series of flows.

  On the other hand, if payment of the pre-investigation fee has not been completed (No in step S18), the contract is not created and it is confirmed whether the expiration date has passed by sending a letter of advice to the collocation applicant A In step S23, if the validity period has passed (Yes in step S23), it is treated that the main application for collocation is canceled (step S24), and the series of flows is completed. If it is within the valid period (No in step S23) and payment is confirmed, the processing in step S19 and subsequent steps is executed.

  The above is an explanation of the flow for the application for co-installation. Next, without permission co-installation (the prescribed co-installation application is not made and the transmission line is co-mounted on the utility pole) A flow of the case will be schematically described with reference to FIG.

  First, for the utility poles built in a specific district, the co-located information that becomes the survey specifications of unrecognized co-installation is output as an “unauthorized co-installation survey form”, which is the unrecognized co-installation surveyor B3 (See FIG. 3) (step S31). Or it is downloaded to the portable terminal which investigator B3 has. The investigator B3 performs a collocation site survey based on the unauthorized collocation survey form (step S32), and collocated survey information related to the survey result is input from the terminal 70 (a collocation survey information input unit). (Step S33).

  Such collocation survey information is received by the unauthorized collocation determination unit 37 of the management system main body 30 owned by the collocation manager B2. The unauthorized collocation determination unit 37 receives the input survey result information and from the collocation information storage unit 45 that stores the existing collocation information based on the regular route, the existing collocation for the corresponding utility pole The object information M4 is read out (step S34; that is, the inquiry of the co-located contract is performed), and the presence or absence of unauthorized co-linking is determined by comparing the two (step S35).

  When the existence of a co-located contract is affirmed for the investigated co-installed object (No in step S35), the series of flows ends. On the other hand, when it is determined that it is unauthorized collocation (Yes in step S35), the investigation result regarding the unauthorized collocation is stored in the unauthorized collocation information storage unit 46 (step S36). This information will be used in the management of the unauthorized permission correction status (contract normalization progress management, management of unauthorized co-workers, removal construction progress management, etc.).

  A request to rectify a collocation for a person who concludes a regular collocation contract or removes the collusion from a collocated person (in many cases, it can be identified from the point or cable type without permission) A document is issued (step S37). It is confirmed whether or not the compliance with the request form is within a predetermined period (step S38), and if there is a compliance (Yes in step S38), the flow of the joint application work described above based on FIG. This is executed for the unauthorized cooperator (step S39).

  On the other hand, if there is no compliance within the predetermined period (No in step S38), a notice of forced removal of the transmission line equipment, etc., without permission without permission is given to the unauthorized cooperator (step S40). If there is no execution of voluntary removal by the bridge or no application for a co-installation contract, the transmission line equipment and the like are removed (step S41). When the removal work is completed, the data renewal from the data rewriting instruction unit 36 is updated, for example, an identification code indicating that the correction is completed is given to the investigation result information on the unauthorized coercion stored in the unauthorized coercion information storage unit 46. It is executed according to the instruction (step S42). Thus, a series of processing is completed.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to this, It is possible to change and implement the said embodiment variously. For example, the application contact person B1 and the co-located manager B2 may be integrated to perform unified management. In addition, the pole map information stored in the pole map information storage unit 43 can be viewed by the collocation applicant A, and the collocation applicant A can perform the work of identifying the utility pole required for the collocation application. The system configuration may be simplified. In this case, it is expected that the check work for unknown pillars will be simplified. Furthermore, a system that converts the power poles, routes, line types, etc. that can be collocated into data based on the information stored in the collocation information storage unit 45 and publishes them on the web as collocated catalog information. You may make it add.

It is a perspective view which shows the installation condition of the transmission line equipment co-mounted with the distribution line in the utility pole provided with the co-mounted channel. It is an enlarged view of a common channel, (a) has shown the enlarged view of the cross-sectional direction of a common channel, (b) has shown the enlarged view of the longitudinal direction, respectively. It is the conceptual diagram which showed typically the party relationship when the co-management system of this invention is applied. It is a block diagram which shows the whole structure of the cooperating management system concerning this invention. It is a flowchart for demonstrating the flow of the cooperating management system concerning this invention. It is a block diagram for demonstrating the distribution | circulation condition of the data in the collocation management system concerning this invention. It is a top view which shows an example of an electric pole strength automatic calculation result display image. It is a top view which shows an example of a co-mountable answer display image. It is a flowchart which shows the flow about management of unauthorized co-mounting.

DESCRIPTION OF SYMBOLS 1 Corollary management system 100a, 100b Utility pole 101 Distribution line 102 Transmission path equipment 10 Terminal (application input part)
DESCRIPTION OF SYMBOLS 20 Data transmission / reception part 21 Application reception part 22 Application management information provision part 23 Reply form generation part 24 Cost claim data generation part 30 Management system main-body part 31 Application information acquisition part 32 Display instruction | indication part 33 Arithmetic processing part 331 Strength calculation part 332 A bundle Determining determination unit 333 Co-placing simulation setting unit 34 Co-placing possibility determination unit 35 Unbundling partner data generation unit 36 Data rewrite instruction unit 37 Unauthorized co-mounting determination unit 38 Memory unit 40 Electric pole information storage unit 41 Pole image storage unit 42 Equipment information storage unit 43 Pole map information storage unit 44 Unique information storage unit 45 Coupling information storage unit 46 Unauthorized coupling information storage unit 50 Display unit 60 Output unit 70 Terminal (Coupling survey information input unit)
CH1-4 co-channel

Claims (5)

A co-located management system that accepts and processes co-installation requests for transmission line equipment from third parties other than the utility pole owner,
An application information acquisition unit that accepts co-located application information including data quantifying the number, outer diameter, and type of transmission line equipment ;
In association with the management number given to each utility pole, a utility pole information storage unit for storing various facility information including information on the installed channel for the utility pole and information on existing installed structures ,
A memory unit for storing a strength calculation formula for calculating the utility pole strength based on a predetermined strength calculation program;
Based on the collocation application information accepted by the application information acquisition unit and the facility information stored in the utility pole information storage unit, an arithmetic processing unit that performs arithmetic processing for determining whether or not collocation is possible,
The arithmetic processing unit includes:
By substituting the numerical value of the application information to the strength calculation formula, a strength calculation unit that calculates the load on the power pole when the transmission line equipment for the application for the extension is laid on the power pole,
A transmission line facility for the coffering application is provided by providing a bundled calculation program, converting the information about the co-located channel and the information of the existing co-installed object into data, and performing the calculation process by the bundled calculation program. And a bundling determination system for determining whether or not a plurality of transmission line facilities can be installed in one bundling space by bundling to determine whether the bundling is possible. The utility pole information storage unit includes a pole image storage unit that stores image information representing the pole state of each utility pole as an image file associated with the management number of each utility pole,
The co-management system according to claim 1, further comprising a display unit that reads and displays a predetermined image file from the mounted column image storage unit when determining whether or not co-mounting is possible. The utility pole information storage unit includes a pole map information storage unit that stores arrangement information indicating the arrangement status of each utility pole as data associated with the management number and map information of each utility pole,
2. The shared unit according to claim 1, further comprising a display unit that superimposes and displays information about the management number of the utility pole specified in the collocation application information on the information read from the pole map information storage unit. Rack management system. The utility pole information storage unit includes a unique information storage unit for storing the unique information at the time of the construction of each utility pole in association with the management number of each utility pole,
2. The co-management system according to claim 1, further comprising a display unit that reads and displays predetermined unique information from the unique information storage unit when determining whether or not to allow co-mounting. A collocated survey information input unit for inputting survey result information on the collocated state of the utility pole, and a collocated information storage unit for storing existing collocated information by the regular route,
An unauthorized co-determining determination unit that determines the presence or absence of unauthorized co-mounting based on the survey result information given from the co-located survey information input unit and the co-located information stored in the co-located information storage unit The co-located management system according to claim 1, wherein:

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