JP2012058971A - Underground installation management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an underground installation management system capable of improving the efficiency of a construction by preventing an accident before happening.SOLUTION: When a specific proprietor performs a construction of an own installation, if the specific proprietor judges that the construction may exert an influence on an installation of another proprietor based on laying information of respective installations buried in ground at different depths according to proprietors, an underground installation management system 50 promotes a prior consultation with the other proprietor to smooth the execution of the construction. The underground installation management system 50 includes: a map management server 4 managing the laying information for every proprietor and determining the presence/absence of an influence on the other proprietor when the specific proprietor performs the construction of the own installation; an access server 3 managing user IDs and passwords assigned to the respective proprietors; a mail server 2 transmitting/receiving mail information among the respective proprietors; and a communication network 9 connecting among the respective proprietors and connecting the respective proprietors to the mail server 2.

Description

  The present invention relates to an underground buried management system, and more specifically, when an operator of electricity, gas, etc. performs construction on an underground buried owned by itself, the other ground is embedded in the surrounding ground including the construction site. It is related with the underground embedment management system which can extract for every registered entrepreneur layer whether an embedment of a entrepreneur exists.

  In recent years, infrastructure has been improved, and underground structures such as waterworks, sewers, gas pipes, power line pipes, and optical cable pipes are arranged in multiple layers in the ground so as not to interfere with each other. When construction such as maintenance inspection and new construction is performed on such underground objects, it is necessary to excavate the ground. However, each business operator is aware of the location of the underground buried object, but from a security point of view, this information is not disclosed to other businesses. Therefore, every time excavating the ground, an operator excavating the ground sends an underground burial agreement describing the excavation position to all other underground burial operators to check whether there are any underground burials that may interfere. If necessary, it was necessary to work together with other companies if necessary, and it took a lot of labor and time to start the construction.

Therefore, in Patent Document 1 as a conventional technique for efficiently managing underground buried objects, a non-contact readable / writable recording medium is provided in the underground buried object, and the surrounding structure including the buried position / map data and the road is provided on the recording medium. An information system such as an underground buried object that records information on the ground and can be detected from the ground is disclosed.
Patent Document 2 discloses a navigation device for patrol monitoring that links company position information, map data, and underground buried object data, and efficiently grasps the position of the underground buried object.
Patent Document 3 discloses an underground buried object position display system that registers the position coordinates, longitudinal / cross-sectional drawings, structure drawings, development drawings, photographs, etc. of underground buried objects for each layer, thereby improving the management of underground buried objects. Is disclosed.
Patent Document 4 can safely and efficiently manage information related to buried property and construction of roads, enable application to the local government and witnessing of construction work, and provide useful construction information to users. An underground property management system is disclosed.

Japanese Patent Laid-Open No. 10-317410 JP 2004-279172 A JP 2006-133367 A JP 2005-227913 A

However, all of the conventional techniques disclosed in Patent Documents 1 to 4 contribute to the efficient management of the company's underground buried objects. However, there is a problem that it is difficult to rationally manage other companies' underground buried objects.
The present invention has been made in view of such a problem, and each business owner who owns an underground buried object registers the laying information of the underground buried object in the map management server, and a specific business operator performs excavation work. When making a request, log in to the map management server and register the necessary information related to the construction, so that the map management server can automatically extract and dig underground buried objects of other businesses affected by the construction. The purpose is to provide an underground buried management system capable of preventing accidents and improving the efficiency of construction.

In order to solve the above-mentioned problems, the present invention relates to claim 1 that, based on laying information about each buried object embedded in the ground at a different depth for each operator, a specific operator own embedment. Underground buried object management that facilitates prior execution of consultations with other operators when it is judged that the impact on other companies' buried objects will occur. A system that manages the laying information for each business operator, manages a map management server that determines whether there is an influence on the other business operators, and manages a user ID and a password assigned to each business operator An access server, a mail server that transmits and receives mail information between the operators, and a communication network that connects the operators and the mail server.
In the underground buried object management system according to the present invention, a company that has joined the system registers laying information (laying map) regarding a buried object owned by each company in the map management server. Each business operator is assigned a user ID and password, and a specific business operator who implements the work can log in to the map management server to check whether there is an embedded object of another business operator at the work position. . As a result, accidents can be prevented and the efficiency of construction can be improved.

According to a second aspect of the present invention, the map management server confirms the laying information about the buried object of another operator based on the position data of the construction site by the specific operator, and in the surrounding ground including the construction site. Whether or not there is a buried object of another company is searched, and if there is a buried object, the other company that owns the buried object is extracted.
A specific business operator (hereinafter referred to as a construction business operator) who performs construction registers a registration ID, a construction location, and a construction method when logging in to the map management server. The map management server searches whether there is a buried object of another company in the surrounding ground including the construction site, and if there is a buried object, extracts the company that owns the buried object. Accordingly, it is possible to immediately search for the presence or absence of the buried object of another business operator who has an influence from the data of the construction site, and the business operator who owns it.
According to a third aspect of the present invention, the map management server transmits the extracted other business operator as mail information to the specific business operator who performs the construction via the mail server.
The construction contractor needs to know whether there is a buried object of another contractor in the surrounding ground including the construction site. When the operator name is extracted, the map management server notifies the construction operator of the information by e-mail. Thereby, the construction contractor can specify another contractor who automatically consults when logging in.

According to a fourth aspect of the present invention, the map management server sends an e-mail to the underground burial consultation request that specifies the name of a specific business operator, a registration ID, and a desired response date for the extracted other business operator. Is sent to the mail server.
Other business operators affected by the construction will need to consult with the construction business operators in advance. Therefore, the map management server transmits an underground burial consultation request to the extracted other business operator by e-mail. Thereby, discussion with a construction contractor and other contractors extracted can be performed quickly.
5. The map management server according to claim 5, wherein the map management server receives the e-mail for a construction location registered by a specific business operator who performs the construction based on a registration ID input by the other business operator who has received the e-mail. It is characterized by posting in the laying information of the company's buried objects.
The construction site of a construction contractor is generally not disclosed to other contractors. However, it is necessary to convey at least information on the construction location to other businesses that will be affected by the construction. Therefore, in the present invention, the construction location registered by the construction contractor is transferred to the laying information of the buried object of the other contractor who has received the mail. As a result, the other business operator who has received the mail can clearly grasp the location that affects the construction location.

According to a sixth aspect of the present invention, when the map management server detects that the underground burial consultation has been completed, the map management server instructs the mail server to send an email indicating the completion of the consultation to a specific business operator that performs the construction. Features.
The other company that has received the e-mail examines whether or not there is an influence on the own company because the construction location is posted in the laying information of the own company, and registers the examination result in the map management server. Thereby, the map management server detects that the consultation has been completed, and transmits an email indicating the completion of the consultation to the construction company. Thereby, the construction contractor can confirm the examination result immediately.
A seventh aspect of the present invention further includes a standard map layer in which map information is recorded in the map management server.
Not all operators who own underground facilities are subscribed to this system. Therefore, it is necessary to hold a paper-based underground burial discussion for businesses that have not yet joined. For that purpose, standard map information is required. Therefore, in the present invention, a standard map layer in which map information is recorded in another layer is provided. As a result, it is possible to cope with the construction by an unsubscribed company as usual.

According to the present invention, laying information related to buried objects owned by each business operator is registered in the map management server. Each operator is assigned a user ID and password, and the construction contractor can log in to the map management server to check whether there is any other company's buried object at the construction position. It can be prevented and the efficiency of construction can be improved.
In addition, the map management server verifies whether there is a buried object of another company near the construction site, and if there is a buried object, extracts the other company that owns the buried object. It is possible to immediately search for the presence or absence of a buried object of another business operator and the business operator that owns it.
In addition, when the name of the business operator is extracted, the map management server notifies the construction business operator of the information by e-mail. Therefore, the construction business operator automatically identifies other business operators that are consulted when logging in. be able to.

Moreover, since the map management server transmits an underground burial consultation request to the extracted other business operator by e-mail, it is possible to quickly discuss the construction business operator and the extracted other business operator.
In addition, since the construction location registered by the construction contractor is posted in the laying information of the buried object of the other contractor who received the email, the other contractor who received the email clearly understands the location that affects the construction location. can do.
Moreover, since the map management server detects that the consultation is completed and transmits a consultation completion email to the construction contractor, the construction contractor can immediately confirm the examination result.
In addition, since the standard map layer in which the map information is recorded is provided in the other layer, it is possible to cope with the construction by a non-subscribed company as usual.

It is a figure which shows the structure of the underground embedment management system which concerns on embodiment of this invention. It is the figure which listed user ID of each provider, a password, an e-mail address, and a referable layer. It is a schematic diagram showing the flow of work by typically expressing each business operator's layer. It is a flowchart explaining operation | movement of the underground embedment management system which concerns on embodiment of this invention.

  Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .

FIG. 1 is a diagram showing a configuration of an underground buried object management system according to an embodiment of the present invention.
In the underground buried object management system 50 according to the present invention, based on the laying information about each buried object buried in the ground at a different depth for each company, a specific company implements construction on its own buried object. An underground buried management system 50 for facilitating construction work by facilitating prior consultation with other businesses when it is determined that the impact on other enterprises' buried materials will occur. In addition to managing the laying information for each business operator (here, electric power company 10, gas company 11 and water company 12), a specific business operator is responsible for other business operators when performing construction on their own buried objects. Map management server 4 for determining the presence or absence of influence, access server 3 for managing the user ID and password assigned to each business operator, mail server 2 for transmitting and receiving mail information between business operators, and between business operators And mail server 2 A communication network 9 is configured to include a. The mail server 2, the access server 3, and the map management server 4 may be integrated in the center 1. Also, an IP address, a user ID, and a password are assigned to each business operator. For example, an IP address: aaa, a user ID: 123, and a password: xyz are given to a power company, an IP address: bbb, a user ID: 456, a password: uvw are given to a gas company, and an IP address is given to a water company. Address: ccc, user ID: 789, password: rst are given.

  In other words, the underground buried object management system 50 according to the present embodiment is constructed by a company (here, the electric power company 10, the gas company 11, and the water company 12) who has joined the system and lays the buried objects owned by the respective companies. Maps (laying information) 5 to 8 are registered in the map management server 4. Then, by assigning a user ID and a password to each business operator and logging in to the map management server 4, the construction business operator can confirm the presence or absence of an embedded object of another business operator at the construction position. As a result, accidents can be prevented and the efficiency of construction can be improved.

  FIG. 2 is a list of user IDs, passwords, e-mail addresses, and referenceable layers of each business operator. Here, for example, in the case of an electric power company, the referenceable layer is a standard map layer and its own layer, and other companies can also refer to the standard map layer, but other companies' layers cannot be referred to. By doing so, security between each company is secured.

FIG. 3 is a schematic diagram showing the flow of work by schematically expressing the layers of each business operator. FIG. 4 is a flowchart for explaining the operation of the underground buried object management system according to the embodiment of the present invention. This will be described with reference to FIGS. 3 and 4 together.
In FIG. 3, the electric power company 10 will be described as a construction company. A laid map is recorded in each layer. For example, a power line laying map 6a is recorded in layer 6 of the power company, a gas pipe laying map 7a is recorded in layer 7 of the gas company, and water supply is laid in layer 8 of the water company. Each map 8a is recorded. In addition, a standard map is recorded in the standard map layer 5. These pieces of information are stored in the map management server 4.

Here, the electric power company 10 that performs excavation logs in to the underground burial management system 50 and registers “excavation location”, “excavation method”, “registration ID”, and the like in the map 6 of the company layer (S1).
Next, the map management server 4 confirms the other company's map layers 7 and 8 based on the registered location data (latitude / longitude information, etc.) of the excavation site, and has a company (gas company) that has equipment nearby. 11) is extracted (S2). That is, the electric power company 10 (construction contractor) registers the registration ID, the construction location, and the construction method when logging into the map management server 4. The map management server 4 verifies whether there is a buried object of another company near the construction site, and if there is a buried object, extracts the company that owns the buried object. Accordingly, it is possible to immediately search for the presence or absence of the buried object of another business operator who has an influence from the data of the construction site, and the business operator who owns it.
The map management server 4 notifies the extraction company (gas company 11) to the company (electric power company 10) that registered the excavation location via the mail server 2 (displayed on the Web screen or email transmission) (S3). That is, the electric power company 10 needs to know whether or not there is a buried object of another business operator at the construction site. When the business name is extracted, the map management server 4 notifies the power company 10 of the information by mail. Thereby, the electric power company 10 can specify the business operator (gas company 11) that automatically discusses when logging in.

The electric power company 10 registers the examination request destination company (gas company 11), registration ID, desired answer date, etc. in the map management server 4, and requests underground burial discussion (S4).
The map management server 4 instructs the mail server 2 to send an email for the underground burial consultation request to the gas company 11, and the mail server 2 sends an email to the gas company 11. (In the e-mail, the name of the company that requested the consultation, the registration ID, and the desired date of reply are described) (S5). The gas company 11 affected by the construction needs detailed discussions with the power company 10 in advance. Therefore, the map management server 4 sends an underground burial consultation request to the extracted gas company 11 by e-mail. Thereby, discussion with the electric power company 10 and the extracted gas company 11 can be performed rapidly.

  Based on the mail, the gas company 11 logs in to the underground buried object management system 50 and inputs the “registration ID” described in the mail. Based on the “registration ID”, the map management server 4 transcribes the excavation location registered by the electric power company 10 to the map of the gas company layer 7 (transcription location B) (S6). The construction site of the electric power company 10 is not disclosed to the gas company 11 and the water company 12 in principle. However, it is necessary to convey at least information on the construction location to the gas company 11 that will be affected by the construction. Therefore, in this embodiment, the construction location registered by the electric power company 10 is transferred to the laying map 7 of the buried object of the gas company 11 that has received the mail (transcription location B). Thereby, the gas company 11 which received mail can grasp | ascertain clearly the location B which affects a construction location.

Based on the information posted above, the gas company 11 examines whether there is an influence on its own equipment, and registers the examination result in the map management server 4 (S7).
The map management server 4 detects that the consultation (response) has been completed, and issues an instruction to the mail server 2 to transmit a consultation completion mail to the power company 10 (S8). The gas company 11 that has received the e-mail has the construction location B posted on the gas company laid map 7, and therefore examines whether there is an influence on the gas company 11 and registers the examination result in the map management server 4. Thereby, the map management server 4 detects that the consultation is completed, and transmits an email of the consultation completion to the power company 10. Thereby, the electric power company 10 can confirm the examination result immediately.
The electric power company 10 logs in to the underground buried object management system 50 based on the mail and confirms the result of the discussion (S9).

  If there is a company that has not yet joined the underground buried object management system 50, the registered excavation point is transferred to the standard map 5 and a paper-based examination is requested. Not all operators who own underground facilities are subscribed to this system. Therefore, it is necessary to hold a paper-based underground burial discussion for businesses that have not yet joined. For that purpose, standard map information is required. Therefore, in this embodiment, a standard map layer in which map information is recorded on another layer 5 is provided. As a result, it is possible to cope with the construction by an unsubscribed company as usual.

1 center 2 mail server 3 access server 4 map management server 5 standard map layer 6 power company layer 7 gas company layer 8 water company layer 9 communication network 10 power company 11 gas company 12 water Company, 50 underground management system

Claims (7)

Based on the laying information about each buried object buried in the ground at different depths for each company, when a specific company implements construction on its own buried object, it affects other companies' buried objects Underground buried object management system that facilitates prior consultation with the other companies and facilitates the execution of construction when it is determined that
A map management server that manages the laying information for each of the operators, and determines whether there is an influence on the other operators,
An access server for managing user IDs and passwords assigned to the respective operators;
A mail server that transmits and receives mail information between the companies;
An underground buried object management system comprising: a communication network that connects between the operators and the mail server.   The map management server confirms the laying information about the buried object of the other operator based on the location data of the construction site by the specific operator, and embeds the other operator in the surrounding ground including the construction site. 2. The underground buried object management system according to claim 1, wherein a search is made as to whether or not an object is present, and if a buried object is present, another operator who owns the buried object is extracted.   3. The underground burial according to claim 1, wherein the map management server transmits the extracted other business operator as mail information to the specific business operator that performs the construction via the mail server. 4. Material management system.   The map management server transmits an e-mail of a request for underground burial discussion specifying the name of a specific operator who implements the construction, a registration ID, and a desired answer date to the extracted other operator. 4. The underground buried object management system according to claim 1 or 3, wherein the mail server is instructed.   The map management server embeds a construction location registered by a specific business operator that implements the construction based on a registration ID input by the other business operator that has received the email, and is embedded in the other business operator that has received the email. The underground embedment management system according to claim 1 or 4, wherein the information is transcribed into the laying information.   The map management server, when detecting that the underground burying discussion is completed, instructs the mail server to transmit a discussion completion mail to a specific business operator who performs the construction. The underground buried object management system according to any one of 1 to 5.   The underground buried object management system according to any one of claims 1 to 6, further comprising a standard map layer in which map information is recorded in the map management server.

Images