JP2002140448A - Method for diagnosing deterioration and server for the same and computer readable recording medium with program recorded - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily and quickly and inexpensively diagnose the deteriorated states of various pieces of industrial equipment such as metal or an electronic circuit and an electronic circuit board. SOLUTION: In this deterioration diagnosing method to be executed by a server 5 of a diagnosis service provider 4 connected through a network 7 to a user client 3 to be operated by a diagnosis client 2, regional information from the diagnosis client 2 is inputted through the network 7, and the deterioration diagnosis processing is executed based on the inputted regional information and information for diagnosis preliminarily preserved in a diagnostic data base 8, and the result of the deterioration diagnosis processing is provided through the network 7 to the diagnosis client 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deterioration diagnosis method and a diagnosis server for diagnosing deterioration states of various industrial devices such as metal, electronic circuits, and electronic circuit boards, and a computer-readable recording medium storing a program.

[0002]

2. Description of the Related Art When diagnosing the life of a metal part of various industrial equipment due to environmental corrosion by a conventional deterioration diagnosis method, a diagnosis requester (in some cases, the owner of the equipment to be diagnosed).
Requests a diagnostic service provider (manufacturer or maintenance company) familiar with industrial equipment.

[0003] The diagnostic service provider requested to make a diagnosis is:
A technician who performs diagnosis is dispatched to the site, and this technician spends a certain amount of time collecting environmental information necessary for the diagnosis and taking it home, and performs a qualitative life diagnosis based on environmental harmfulness.

[0004] The diagnostic service provider sends a document describing the diagnostic result to the diagnostic requester.

[0005]

In the conventional degradation diagnosis method as described above, a technician who constantly performs the diagnosis must be secured on the side of the diagnostic service provider, which increases labor costs and is expensive. become.

[0006] Depending on the circumstances of the technician performing the diagnosis, the collection of environmental information may not be started on site at the time desired by the client, and the collection of environmental information may take about three months after the start of collection. Period is required. Furthermore, the diagnostic results are qualitative and do not indicate the life of the device to be diagnosed.

In such a situation, the willingness of a potential diagnosis client to request a diagnosis is reduced, the diagnosis is not performed, the deterioration of the device to be diagnosed progresses inside, and it is not possible to grasp a time suitable for renewal of the device. If the user continues to use the device, sudden failure or device stoppage may occur.

Further, as described above, when the conventional deterioration diagnosis method is applied, the cost for diagnosis is high, and the diagnosis period is prolonged. For this reason, the diagnostic service provider only applies the deterioration diagnostic service to existing customers, and it is difficult to make the diagnostic service an effective selling point for acquiring new customers.

The present invention has been made in view of the above-mentioned circumstances, and discloses a part of diagnostic know-how by using the Internet and a diagnostic server so that a diagnosis requester can obtain an appropriate diagnosis result at a low cost in a short time. It is an object of the present invention to provide a deterioration diagnosis method, a diagnosis server, and a computer-readable recording medium that records a program for obtaining the program.

[0010]

Hereinafter, specific measures taken to realize the present invention will be described.

[0011] The first to thirteenth inventions relate to a deterioration diagnosis method executed by a server of a diagnostic service provider connected via a network to a client operated by a diagnostic client.

According to a first aspect of the present invention, there is provided a step of inputting local information from a diagnosis requester via a network, and a deterioration diagnosis process based on the input local information and diagnostic information stored in a diagnostic database in advance. And a step of providing the result of the deterioration diagnosis processing to the diagnosis requester via a network.

As the network, for example, the Internet is used.

In the first invention, a part of the diagnostic know-how is disclosed on the network by the diagnostic service provider. Therefore, the diagnosis requester can obtain a diagnosis result easily and in a short time only by inputting the regional information at his own convenience.

In the first aspect of the present invention, the diagnosis service is performed only by using the area information input by the diagnosis requester and the diagnosis information stored in advance. Therefore, it is possible to reduce the labor on the diagnostic service provider side such as securing and dispatching technicians, and to reduce the diagnostic cost.

Furthermore, in the first invention, since a diagnosis service provider provides a short, easy and inexpensive diagnosis service to a diagnosis requester, it is considered that the number of diagnosis requests from the diagnosis requester increases. As a result, the diagnostic service provider can cultivate a new customer by, for example, proposing replacement of the device to be diagnosed to the diagnostic client.

The second invention is a method of diagnosing deterioration similar to that of the first invention. The regional information includes a facility name of a public institution, an area code of a telephone, and a diagnosis requester based on a displayed map. Is at least one of the specified positions.

According to the second aspect, the same operation and effect as those of the first aspect can be obtained. In addition, since it is not necessary to input detailed area information, even if the diagnosis requester is not familiar with the deterioration diagnosis, Deterioration diagnosis can be easily performed.

The third invention is a deterioration diagnosis method similar to the first or second invention, but converts the input local information into local information in a format used in a diagnostic database, and performs this conversion. The deterioration diagnosis process is executed based on the later area information and the diagnosis information stored in the diagnosis database.

In the third aspect of the invention, even when the input area information and the area information handled in the diagnostic database do not match, the same operation as in the first or second aspect of the present invention provides the same effect. The effect is obtained.

The fourth invention is a deterioration diagnosis method similar to the first to third inventions, except that an environmental evaluation point indicating the degree of environmental harm determined from the input local information, and an environmental evaluation point. A deterioration diagnosis process is executed using a deterioration progress state model formula formulated to calculate the degree of deterioration based on the points.

In the fourth aspect, the contents of the deterioration diagnosis processing are specified specifically. First, the degree of deterioration of the environment determined from the regional information is obtained, and the degree of deterioration is calculated based on the degree of deterioration of the environment. As a result, the diagnostic service provider can provide a quantitative diagnosis result to the diagnosis requester.

According to a fifth aspect of the present invention, there is provided a method of diagnosing deterioration similar to that of the fourth aspect of the present invention. The environmental factors are read out from the database, the read environmental factors are scored in accordance with a predetermined standard, environmental evaluation points are obtained, and a deterioration progress state model formula is calculated based on the obtained environmental evaluation points.

In the fifth aspect, it is specifically specified that an environmental evaluation point is obtained from environmental factors such as measured temperature, humidity, and amounts of various gases.

The sixth invention is a method of diagnosing deterioration similar to the first to third inventions, except that an environmental evaluation point indicating the degree of harmfulness of the environment determined from the input local information, A deterioration diagnosis process is performed using deterioration change information indicating the progress of deterioration at the evaluation point.

In the sixth aspect, the details of the deterioration diagnosis processing are specified. First, the degree of deterioration of the environment determined from the regional information is obtained, and the degree of deterioration is calculated from the degree of deterioration of the environment and the deterioration change information (for example, a master curve indicating a deterioration progress state such as a metal corrosion state). As a result, the diagnostic service provider can provide a quantitative diagnosis result to the diagnosis requester.

The seventh invention is a deterioration diagnosis method similar to the sixth invention, but when a deterioration progress state obtained based on deterioration change information satisfies an alarm generating condition, a diagnosis request is made via a network. Provide alarm information to the person.

According to the seventh aspect of the present invention, the degree of deterioration can be determined and a warning can be given, and treatment information (guidance such as a treatment method, a prescription) for the warning can also be provided.

The eighth invention is a degradation diagnosis method similar to the first to seventh inventions, but performs user authentication for a diagnosis requester who requests access via a network, and stores a diagnosis database. Information is managed for each diagnosis requester.

For example, when a diagnostic service provider has information for identifying a diagnosis requester, such as a user name, a user ID, and a password, the user can be authenticated and access rights can be managed.

According to the eighth aspect, access from a diagnosis requester can be appropriately managed, and unauthorized use of a diagnosis service can be prevented. Further, by performing the authentication of the diagnosis requester, for example, the diagnosis service provider can manage the history such as the number of times of diagnosis for each diagnosis requester.

The ninth invention is a deterioration diagnosis method similar to the first to eighth inventions. However, when the information necessary for executing the deterioration diagnosis processing is insufficient, the deterioration diagnosis is performed via a network. Requesting the diagnosis requester to replenish the missing information, storing the refilled information in the diagnosis database and executing the deterioration diagnosis process.

According to the ninth aspect, it is possible to make up for a lack of necessary information in the deterioration diagnosis processing, and to appropriately execute the deterioration diagnosis processing. Further, this supplemented information can be reused in the subsequent deterioration diagnosis processing.

The tenth invention is a deterioration diagnosis method similar to the first to ninth inventions, but provides a result of the deterioration diagnosis processing and treatment information according to the state of deterioration via a network.

In the tenth aspect, since the diagnosis requester is provided with the degree of deterioration of the device and the treatment information corresponding to the state of deterioration together with the period up to the life of the device, the diagnosis service provider is provided with a sophisticated service. Deterioration diagnosis service can be provided to the diagnosis requester. Further, the diagnosis requester can take appropriate measures according to the deterioration of the device.

The eleventh invention is a deterioration diagnosis method similar to the first to tenth inventions, but the result of the deterioration diagnosis processing is provided to a diagnosis requester via a network using public mail. I do.

According to the eleventh aspect, the confidentiality of the result of the deterioration diagnosis provided to the diagnosis client can be ensured by using the public mail.

The twelfth invention is a method for diagnosing deterioration similar to the first to eleventh inventions, but executes a management process of a diagnosis cost for a diagnosis requester who has provided a result of the deterioration diagnosis processing.

In the diagnosis cost management process, for example, a service for reducing the cost of diagnosis may be realized according to the number of diagnoses for each diagnosis requester. In addition, the transfer of the diagnosis requester to the financial institution may be monitored. Further, a warning may be notified to the diagnosis requester when there is no payment. Further, the access right of the diagnosis requester who does not pay may be destroyed. In addition, it is also possible to request an agent such as a provider to perform business procedures related to the settlement of the diagnosis cost and to collect the cost, and collect the cost from the agent.

In the twelfth aspect, the diagnostic service provider can effectively acquire the diagnostic cost from the diagnostic requester. If the agent is an Internet provider, the diagnosis fee can be collected together with the Internet fee. Therefore, cost billing and settlement can be facilitated.

The thirteenth invention is a deterioration diagnosis method similar to the first to twelfth inventions, except that the information inputted from the diagnosis requester via the network and the result of the deterioration diagnosis processing are obtained. At least one is stored in a diagnostic database for use in a subsequent degradation diagnosis process.

According to the thirteenth aspect of the present invention, correction of local information, history information, and past diagnosis results can be reused, and erroneously input local information can be found and reviewed, and local information having the same content as the past local information can be obtained. Can be omitted, and the deterioration diagnosis can be performed smoothly.

According to a fourteenth aspect, input processing means for inputting regional information from a client operated by a diagnosis requester via a network, and the input local information and diagnostic information stored in a diagnostic database in advance. The diagnosis server includes: a diagnosis unit that executes a deterioration diagnosis process based on the diagnosis process; and a providing unit that provides a result of the deterioration diagnosis process executed by the diagnosis unit to a client via a network.

According to a fourteenth aspect, there is provided a diagnostic server for implementing the deterioration diagnosing method according to the first aspect. It should be noted that a diagnosis server that performs each of the second to thirteenth deterioration diagnosis methods may be an object of the present invention.

A fifteenth invention is directed to a function of inputting local information from a diagnosis requester to a computer via a network, and a function based on the input local information and diagnostic information stored in a diagnostic database in advance. This is a computer-readable recording medium that stores a program for realizing a function of executing the deterioration diagnosis process and a function of providing a result of the deterioration diagnosis process to a diagnosis requester via a network.

By executing the functions in the fifteenth aspect, the deterioration diagnosis method described in the first aspect can be realized by a computer.

That is, by using the recording medium on which the fifteenth program is recorded, the above-mentioned functions can be easily added to a computer or a computer system which does not have the above-mentioned functions. The same function and effect as the first invention can be obtained.

A program for causing a computer to implement the deterioration diagnosis method described in the second to thirteenth inventions may be recorded on a recording medium.

[0049]

Embodiments of the present invention will be described below with reference to the drawings.

(First Embodiment) The first embodiment of the present invention
The main point of the invention is to provide a deterioration diagnosis service for providing a life diagnosis of a device owned by a diagnosis client due to metal corrosion through the Internet.

The second gist of the present embodiment is to determine the corrosion state of various metals based on the area information input by the diagnosis requester, to obtain a diagnosis result of the corrosion life, alarm information and treatment information (treatment information). Guidance information and prescriptions).

That is, the deterioration diagnosis method according to the present embodiment is a business method for quickly and inexpensively diagnosing the life of a device owned by a diagnosis requester via the Internet, and makes the maintenance of the diagnosis target device more efficient and easier. Is possible.

FIG. 1 is a block diagram illustrating a schematic configuration of a deterioration diagnosis system for executing the deterioration diagnosis method according to the present embodiment.

The deterioration diagnosis system 1 is configured by connecting a user client 3 operated by a diagnosis client 2, a diagnosis server 5 managed by a diagnosis service provider 4, and a server 6 of a financial institution via a network 7. ing. The diagnostic server 5 accesses the diagnostic database 8 as needed. The network 7 can be, for example, the Internet.

The user client 3 serves as an interface with the diagnosis requester 2. This user client 3
Has an input function for receiving an input from the diagnosis requester 2,
It has a display function of displaying a diagnosis result to the diagnosis client 2. For example, the input function and the display function may be realized by a browser.

The diagnostic server 5 is a server of the diagnostic service provider 4 that provides a diagnostic service based on a request from the user client 3. The diagnosis server 5 inputs the area information, performs a diagnosis of the environmental corrosion life of the metal, and transmits the result to the user client 3 via the network 7.

The diagnosis database 8 stores diagnosis information necessary for executing diagnosis and providing a diagnosis service.

The server 6 of the financial institution is a server for collecting the cost for the diagnostic service from the diagnostic client 2 and settling it to the diagnostic service provider 4.

The diagnostic server 5 mainly includes an access right management function 5a, an input information replenishment function 5b, a deterioration diagnosis function (here, a metal corrosion diagnosis function) 5c for calculating the metal corrosion amount and determining the life. And a diagnosis result providing function 5d and a diagnosis cost charging function 5e.

The access management function 5 a
Based on the request from the user client 3, the access right to the diagnostic server 5 is managed, and it is determined whether or not the access is unauthorized.

The input information replenishment function 5b compares the information on the environmental evaluation points of each region and the diagnostic information such as the number of years of use stored in the diagnostic database 8 in advance with the input regional information of the diagnosis requester 2. Then, when the information necessary for the deterioration diagnosis is insufficient, the information is requested to be supplemented, and the supplementary information is inputted and stored in the diagnosis database 8.

The deterioration diagnosis function 5c calculates the amount of metal corrosion of the device to be diagnosed based on the area information of the diagnosis requester 2 and obtains the deterioration progress state (metal corrosion state) with respect to the environment.

That is, the deterioration diagnosis function 5c includes the model information of the deterioration progress state of various metal materials and the master curve (deterioration change) of the deterioration progress of various metal materials stored in the diagnosis database 8 in advance with the regional information of the diagnosis requester 2. Information) and the limit corrosion amount (lifetime judgment value).

The diagnosis result providing function 5e is provided with the deterioration diagnosis function 5
The diagnostic result obtained by c is transmitted to the user client 3. Further, the diagnosis result providing function 5e determines the amount of metal corrosion of the device to be diagnosed calculated based on the regional information of the diagnosis requester 2 at the corrosion (gradual) level of various metal materials stored in the diagnosis database 8. I do. Then, the diagnosis result providing function 5e transmits to the user client 3 warning information and treatment information (treatment method, prescription, treatment guidance, etc.) stored in the diagnosis database 8 and corresponding to the corrosion level.

For example, the diagnosis result providing function 5d performs a systematic diagnosis according to the setting of the providing time of the diagnosis result and the treatment information (for example, setting of time such as one year interval, setting of transmitting when desired). Results may be provided. This setting may be freely updatable.

The diagnosis cost charging function 5e reduces the cost of the diagnosis service in accordance with the number of times of diagnosis and charges the diagnosis requester 2. Substantial management of the billing and payment of the cost to the diagnosis client 2 may be executed by the server 6 of the financial institution, and the diagnosis cost charging function 5e may perform only the charging instruction and the result acquisition instruction.

FIG. 2 is a block diagram showing an operation example of the diagnostic server 5 which has input a diagnostic request from the diagnostic client 2 via the user client 3 and the network 7.

When a diagnosis request from the diagnosis requester 2 is input to the diagnosis server 5, first, the access right management function 5 a determines whether or not the diagnosis requester 2 has the access right by referring to the diagnosis history in the diagnosis database 8. to decide. When the access from the diagnosis requester 2 is the first time, the access right management function 5
a requests the user client 2 to input information for acquiring the access right, and when predetermined information is input, shifts the processing to the next input information supplement function 5b. On the other hand, when the access from the diagnosis requester 2 is the second time or more, the access right management function 5a refers to the user identification information and the diagnosis history of the diagnosis database 8 to determine the presence or absence of the access right, thereby preventing unauthorized use. I do.

Next input information replenishment function 5b
Requests the user client 3 to input the regional information of the diagnosis client 2 and, when predetermined information is input, updates the diagnosis conditions of the diagnosis database 8 and replenishes the input information for the shortage.

The deterioration diagnosis function 5c to be executed next calculates the amount of metal corrosion based on the area information input by the diagnosis client 2, and then calculates the amount of metal corrosion in the environment where the equipment to be diagnosed is located. presume. Deterioration diagnosis function 5c
Determines the life limit by obtaining the limit corrosion amount (life judgment value) from the deterioration progress state master curve of various metal materials stored in the diagnostic database 8 and the deterioration progress state model formula.

The diagnostic result providing function 5d to be executed next is:
The result of the life determination and alarm information and treatment information corresponding to the corrosion level stored in the diagnosis database 8 are output to the diagnosis requester 2.

The diagnostic cost accounting function 5e to be executed next is:
According to the number of diagnoses performed by the diagnosis requester 2, the cost reduction and the usage fee settlement method are determined and the diagnosis requester 2 is charged for the cost.

FIG. 3 is a block diagram exemplifying the contents of various databases constituting the diagnostic database 8.

The diagnostic database 8 includes a regional database 8a, a diagnostic history database 8b, and an environment database 8.
c, a metal corrosion database 8d, and a diagnosis result database 8e.

The regional database 8a contains the diagnosis requester 2
In order to identify regional information suitable for diagnosis based on the regional information entered from, information such as public institution name, prefecture or municipal name, telephone area code, city map, etc. and the area actually used for diagnosis The information is stored in association with the information. In addition, the regional database 8a stores diagnostic condition information such as the number of years of use of equipment required for executing the diagnosis, installation environment, information on surrounding areas (hot springs, chemical plants, coasts, rivers), and environmental evaluation points in major areas. Lists are saved.

The diagnosis history database 8b includes information for identifying the diagnosis requester 2, such as a user name, a user ID, and a password necessary for managing and determining the access right of the diagnosis requester 2, and information for each diagnosis requester. The number of times of diagnosis, the information input by the diagnosis requester at the time of requesting the diagnosis, etc. are stored.

In the environment database 8c, various environmental factors, such as temperature and humidity, indicating the state of the environment in which the devices are arranged are classified into five stages in the atmospheric environment category, and the measured values of each environmental factor are stored in the environment database 8c. The environment evaluation point classification table in which the corresponding environmental evaluation points are set is stored.

The environment database 8c stores information (years of use, installation environment) supplementarily input by the diagnosis requester 2.
The environmental evaluation point correction formula for correcting the environmental evaluation point by using is stored.

The metal corrosion database 8d includes a degradation progress model model expression for each metal material expressed as a function of the environmental evaluation point and time for each metal material, and a deterioration degradation model for each environmental evaluation point of each metal material. A metal deterioration progress state master curve indicating the relationship between the progress state and time is stored. The diagnostic server 5 can refer to the deterioration progress state master curve and the deterioration progress state model formula of the corresponding metal.

The diagnosis result database 8e refers to the environment database 8c and the metal corrosion database 8d based on the regional information input from the diagnosis client 2, and determines the life from the metal corrosion amount calculated by the diagnosis server 5. In this case, a critical corrosion amount (life determination value), a corrosion level of various metal materials, alarm information corresponding to the corrosion level, treatment information, and the like are stored.

The diagnosis result database 8e stores a list of reduction rates of diagnosis costs and a list of diagnosis costs for providing a service for reducing the cost of diagnosis in accordance with the number of times of diagnosis.

The following describes the deterioration diagnosis service realized by the deterioration diagnosis system 1 having the above-described configuration.

FIG. 4 is a block diagram illustrating the contents of the deterioration diagnosis service.

The diagnosis requester 2 who uses the degradation diagnosis service for the first time operates the user client 3 and requests the diagnosis server 5 of the diagnosis service provider 4 to issue a user ID and a password. The diagnosis server 5 issues a user ID and a password in accordance with the issuance request, and provides the user to the diagnosis requester 2. Thereafter, the diagnosis requester 2 inputs a user ID and a password when using the deterioration diagnosis service, and the diagnosis server 5 confirms the access right.

The diagnosis requester 2 whose right of access has been confirmed can click on the nearest station on the map displayed on the screen of the user client 3 or input the area code of the telephone number to obtain local information. , And respond to supplementary questions from the diagnostic server 5 (years of equipment use, presence or absence of hot springs and chemical factories, distance to the coast, etc.).

The diagnostic server 5 of the diagnostic service provider 4
The input area information and the answer to the supplementary question are stored in the diagnostic database 8. Thereby, re-input can be omitted.

The diagnosis server 5 compares the input area information and the answer to the supplementary question with the contents of the diagnosis database 8 and calculates an environmental evaluation point of the environment where the device to be diagnosed exists.

The diagnostic server 5 quantitatively diagnoses the progress of deterioration of various metallic materials based on the calculated environmental evaluation points, and transmits the diagnosis result and treatment information to the user client 3 together with the technical background. I do.

When the diagnosis server 5 is requested to make a diagnosis a plurality of times, the diagnosis server 5 estimates the deterioration progress state of the metal material based on the diagnosis history information and the regional information for each predetermined period to make a diagnosis.

The diagnosis result is transmitted together with the alarm information and the treatment information (guidance information) using the public mail server 9 and delivered to the diagnosis requester 2.

The diagnosis requester 2 transfers a diagnosis fee to the account of the diagnosis service provider 4 in the financial institution, and the diagnosis service provider 4 acquires a diagnosis fee.

Hereinafter, a specific example of the deterioration diagnosis function 5c executed in the diagnosis server 5 will be described. Here, a case in which the deterioration diagnosis method described in Japanese Patent Application No. 2000-251355 is used will be described.

First, the deterioration diagnosis function 5c determines the environment in which the device to be diagnosed is located from the input information, and determines the values of various environmental factors (eg, temperature, humidity, hydrogen sulfide concentration, (Sulfurous acid gas concentration, chlorine concentration, ammonia concentration, pollution degree of equipment, etc.).

The regional information and the values of various environmental factors corresponding to the regional information are associated in the diagnostic database 8.

FIG. 5 is a diagram for explaining the concentration of corrosive gas used as an environmental factor. The arrangement of the data group monitoring the time series change of the corrosive gas concentration is represented by h (t _n ) (p
pm), the time integral of the corrosive gas concentration is averaged, and the corrosive gas concentration at a certain time T = ΣΔt _n can be obtained as (Σh (t _n ) ・ Δt _n ) / T.

Next, the deterioration diagnosing function 5c includes an environment classification table 10 of JEIDA-29 as shown in FIG.
According to the environmental factor weighting factor table 11 shown in FIG. 11, the environmental evaluation point = A + B +
Calculate C ₁ + C ₂ + C ₃ + C ₄ + C ₅ .

Next, the deterioration diagnosis function 5c uses the calculated environmental evaluation point as a function of the deterioration progress state model formula W (for example, an environment evaluation value e and time d in the diagnosis database 8;
The degradation progress state of the metal material (metal corrosion weight loss) is estimated with reference to a metal corrosion weight loss function that increases the metal corrosion weight loss as the environmental evaluation value e or the time d increases.

For example, the deterioration diagnosis function 5c is shown in FIG.
As shown in (1), the average environmental evaluation point for a certain period is calculated, and it is revised that it will continue in the past and in the future, and the deterioration progress state after the present is estimated.

As shown in FIG. 8B, the environmental evaluation points may be sequentially calculated at desired times, and the deterioration progress state may be estimated by reflecting the past history of the environmental evaluation points. By estimating the deterioration progress state by reflecting the past history in this way, it is possible to predict the deterioration progress state more accurately than the prediction of the average deterioration progress state as shown in FIG.

Next, the deterioration diagnosis function 5c reads the critical thickness of the metal part, which is made into a database for each device / part type, from the diagnosis database 8 as a life point threshold. Then, the remaining life is calculated by applying the threshold value and the current deterioration progress state to the deterioration progress state model formula W. For example,
As shown in FIG. 9, in a diagnosis target device, the degradation progress state model formula is W = g (E, d), the current environmental evaluation point is E ₀ , the degradation progress state is W ₀ , and the life point threshold is set. The value is W ₁
In the case of, the remaining life is d ₁ −d ₀ = g ⁻¹ (E ₀ , W ₁ ) −g
^{_{- 1 (E 0, W 0}} ) to be calculated.

Incidentally, instead of the deterioration progress state model formula,
A deterioration progress state master curve representing the relationship between the deterioration progress state and time for each environmental evaluation point may be used.

Further, another specific example of the deterioration diagnosis function 5c executed in the diagnosis server 5 will be described below. Here, a case in which the deterioration diagnosis method described in Japanese Patent Application No. 2000-024321 is used will be described.

The operation until the deterioration diagnosis function 5c obtains the value of the environmental factor based on the area information is the same as the above case.

In this example, the deterioration diagnosis function 5c is the same as that shown in FIG.
0, referring to the environmental evaluation point classification table 12 as shown in FIG.
Evaluation points are obtained for each environmental factor, and the evaluation points for each environmental factor are summed to calculate an environmental evaluation point.

The environmental evaluation point classification table 12 is divided into five classes according to the value of each environmental factor, and evaluation points are assigned to each class. In this environmental evaluation point classification table 12, as environmental factors affecting the degree of corrosion, temperature, humidity, corrosive gas (amount of sulfur-based gas such as SO ₂ , H ₂ S, nitrogen oxide gas such as NO ₂ ) Amount, Cl ₂ , HC
1 and the like, and the amount of chloride gas such as 1 and the amount of NH ₃ gas) and sea salt particles (the amount of sea salt particles and the distance from the coast).

Instead of acquiring the environmental evaluation points from the values of the environmental factors using the table as described above, the function for acquiring the environmental evaluation points from the values of the environmental factors is stored in the diagnostic database 8 and used. May be.

FIG. 11 is a diagram showing an example of a function for calculating an environmental evaluation point from the values of environmental factors. This FIG.
Shows a broken-line function passing through the median of the environmental factor values classified into classes and the evaluation points at the median, and an approximate function approximating the broken-line function.

For example, if the value of a certain environmental factor B is x,
Evaluation point obtained by the above environmental evaluation point classification table 12 but is e _1, evaluation point obtained by the polygonal line function becomes e _2, the evaluation point obtained by the approximation function becomes e _3.
By using such a function, the evaluation point can be calculated more precisely.

Further, the weighting coefficient k of the evaluation point for each environmental factor i
_i may be stored in the diagnostic database 8, and the environmental evaluation point E may be calculated by the equation (1) using the weighting factor k _i for each environmental factor _i and the evaluation value e _{i for} each environmental factor. .

[0110]

(Equation 1)

Next, the deterioration diagnosis function 5c creates a deterioration progress state model formula such as a corrosion weight loss function or a corrosion rate function for each metal type based on the calculated environmental evaluation points. As described above, the metal corrosion weight loss function is a function W = g (E, d) of the environmental evaluation point E of the environment where the device to be diagnosed is installed and the installation time d.

A typical corrosion weight loss function is expressed as a linear expression of a square root of time d as shown in FIG. 12, and each coefficient of the linear expression is described as a polynomial of an environmental evaluation point. That is, assuming that the coefficients of the linear expression are α and β, respectively, the metal corrosion weight loss function becomes the following expression (2).

[0113]

(Equation 2)

The number of terms and coefficients of the polynomials α and β of the environmental evaluation point E differ depending on the type of metal. The number of terms and coefficient for each metal are stored in the diagnostic database 8.

By differentiating the metal corrosion weight loss function shown in equation (2), a metal corrosion rate function is obtained. Specifically, the metal corrosion rate function is: dW / dt = f (E, d)
= Α (E) ² / (W-β (E)).

Therefore, the deterioration diagnosis function 5c can obtain the corrosion weight loss and the corrosion rate based on the environmental evaluation point E and the time d, and can estimate how much the corrosion has progressed.

When there is a limit to the corrosion weight loss, it is possible to estimate the time from the current state until reaching the limit value, that is, the remaining life, using the corrosion weight loss function and the corrosion rate function.

Note that instead of the above-described deterioration progress state model formula, a deterioration progress state master curve relating the deterioration progress state and time of the metal for each environmental evaluation point for each metal is stored in the diagnostic database 8 in advance. It may be stored, and the time from the current deterioration progress state to the limit may be determined as the remaining life.

At predetermined intervals, the relationship between the amount of corrosion of the metal and the corrosion thickness of the metal of the device to be diagnosed is examined, and this relationship is stored in the diagnosis database 8 in advance. Then, the deterioration diagnosis function 5c can use this relationship to estimate the corrosion thickness of the metal in the device to be diagnosed after t time corresponding to the amount of corrosion after t time.

Further, the corrosion area ratio may be calculated from the metal corrosion amount using a correlation function between the metal corrosion amount and the metal corrosion area ratio of the device to be diagnosed. This correlation function can be obtained from a time-series change curve of the metal corrosion area rate.

Further, the corrosion area rate may be calculated from the metal corrosion rate using a correlation function between the corrosion rate of the metal and the corrosion area rate of the metal of the device to be diagnosed.

Further, the failure rate of the device to be diagnosed may be obtained based on a relationship curve between the corrosion rate of the metal and the failure rate, and a relationship curve between the corrosion area of the metal and the failure rate.

Further, the pollution degree is obtained from the correlation curve between the environmental evaluation point of metal and the pollution degree, and the remaining life of the diagnosis target apparatus is estimated using the relationship curve between the time until the failure of the diagnosis target equipment and the pollution degree. May be.

By using the deterioration diagnosis system 1 that performs the deterioration diagnosis method according to the present embodiment as described above, the diagnosis requester 2 can use the diagnosis server of the diagnosis service provider 4 through the Internet 7 from the user client 3. 5 can be requested for diagnosis.

Further, the diagnosis requester 2 can input information necessary for diagnosis with extremely simple operation and with privacy kept secret.

Further, the diagnosis requester 2 simply obtains the access right required for diagnosis by the diagnosis server 5 and inputs local information or the like based on an information input instruction from the diagnosis server 5, so that the metal of the device to be diagnosed can be changed. Can easily obtain the results of the environmental corrosion life diagnosis.

Further, the diagnosis requester 2 can quickly and inexpensively acquire the metal corrosion, remaining life, treatment information, and the like of the diagnosis target device owned by the diagnosis requester 2, and can appropriately perform maintenance based on the treatment information.

On the other hand, the diagnostic service provider 4 can promptly provide diagnosis results and treatment information to the diagnosis requester 2, can encourage the execution of advanced diagnosis including environmental measurement, and can take measures corresponding to the diagnosis results. Can be provided. As a result, the diagnostic service provider 4 can enclose customers through various proposals such as replacement of equipment for the diagnostic client 2, so that the technology can be appealed and the market can be developed.

(Second Embodiment) The gist of the present embodiment is to implement the life of a diagnosis requester's own device quickly and inexpensively through the Internet 7 similarly to the first embodiment, and The point is to provide a degradation diagnosis service that makes maintenance more efficient.

On the other hand, this embodiment is characterized in that an Internet provider or a telecommunications company (telephone company) having an Internet provider carries out office procedures and cost collection on behalf of the settlement of diagnostic costs as a settlement method. .

FIG. 13 is a block diagram illustrating a schematic configuration of a deterioration diagnosis system for executing the deterioration diagnosis method according to the present embodiment.

The deterioration diagnosis system 13 includes a user client 14 serving as an interface for the diagnosis requester 2, a diagnosis server 15 of the diagnosis service provider 4, a diagnosis database 16 for storing data necessary for executing diagnosis and providing a diagnosis service, Diagnosis requester 2 for the cost of the diagnosis service
From the financial institution for collecting money from the settlement agent and settling it to the settlement agent 17; And a server 19.

The user client 14 of the diagnosis requester 2 and the diagnosis server 15 of the diagnosis service provider 4 are connected via the Internet 7.

In this embodiment, the settlement agent 17 is an Internet provider or a communication company (telephone company) having the Internet provider. As a result, the input / output of information regarding the diagnosis and the transmission of the diagnosis result become smooth, and the settlement of the diagnosis cost becomes easy.

In the deterioration diagnosis system 13 that performs the deterioration diagnosis method according to the present embodiment as described above, the diagnosis is performed from the user client 14 of the diagnosis requester 2 to the diagnosis server 15 of the diagnosis service provider 4 through the Internet 7. Asked.

When the diagnosis requester 2 obtains an access right necessary for the diagnosis of the diagnosis server 15 and inputs local information or the like based on an information input instruction from the diagnosis server 15, the diagnosis of the environmental corrosion life of the metal of the device to be diagnosed is performed. Is performed, and the life of the equipment owned by the diagnosis client 2 is diagnosed quickly and inexpensively.

Further, in the settlement of the diagnosis fee, the Internet provider or a telecommunications company (telephone company) having the Internet provider carries out the office procedure and the cost collection related to the settlement of the diagnosis fee as a proxy.

As a result, the diagnosis requester 2 can be charged for the diagnosis cost together with the normal Internet cost, and the diagnosis requester 2, financial institution, diagnosis service provider 4,
The settlement between the settlement agents 17 can be simplified.

In the deterioration diagnosis systems 1 and 13 that execute the deterioration diagnosis method described in each of the above embodiments, the arrangement of each component may be changed as long as the same operation and function can be realized. Alternatively, each component may be freely combined.

The functions of the deterioration diagnosis systems 1 and 13 described in each of the above-described embodiments are, for example, a magnetic disk (floppy (registered trademark) disk, hard disk, etc.), an optical disk ( The present invention can be applied to a computer by writing to a recording medium such as a CD-ROM or a DVD) or a semiconductor memory, or can be transmitted to a communication medium and applied to a computer. A computer that realizes the above function reads a program recorded on a recording medium, and the operation is controlled by the program,
The processing described above is executed.

[0141]

As described above, in the present invention,
The deterioration diagnosis service is provided based on the regional information input from the diagnosis requester through the network and the contents of the diagnosis database held by the diagnosis service provider.

Thus, the diagnostic service provider does not need to always have a technician specializing in diagnosis, can perform diagnosis inexpensively and in a short time, and the diagnosis requester can improve the efficiency of maintenance of owned equipment. it can.

In the present invention, the actual area information is obtained from the name of the public institution, the name of the prefecture or municipal office, the area code of the telephone, and the map input by the diagnosis requester. Diagnostic service is provided.

Thus, the diagnosis requester can easily input information, and the diagnosis service provider can easily acquire the area information necessary for diagnosis.

Further, in the present invention, the deterioration diagnosis process is performed using the deterioration progress state model formula, deterioration change information, and the like, which are the basis of the diagnosis, so that quantitative diagnosis can be performed. Furthermore, the accuracy of the diagnostic service provided to the diagnosis client can be improved by updating the contents of the diagnosis database storing the deterioration progress state model formula and the deterioration change information at any time and changing the contents to the latest information.

In the present invention, by performing the user authentication of the diagnosis requester, the management and determination of the access right is facilitated, and the presence or absence of the access right can be determined to prevent unauthorized use.

Further, in the present invention, since information that is insufficient for the deterioration diagnosis processing is supplemented, the information input of the diagnosis requester is assisted, and the diagnosis service provider can easily obtain the information necessary for the diagnosis. .

Further, in the present invention, the corrosion level of the metal material, the alarm information and the treatment method are summarized in the prescription guidance and provided to the diagnosis requester together with the diagnosis result, so that the inspection work of the diagnosis requester can be simplified. , Can eliminate human error.

Further, in the present invention, by performing the diagnosis cost accounting process, the office procedure related to the settlement of the diagnosis cost can be simplified, and a service for reducing the diagnosis cost according to the number of diagnoses can be performed.

Also, in the present invention, since the diagnostic results are stored in the diagnostic database, the diagnostic results can be reused.
Diagnostic services can be improved.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a schematic configuration of a deterioration diagnosis system that executes a deterioration diagnosis method according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing an operation example of a diagnostic server which has input a diagnostic request from a diagnostic client via a user client and a network.

FIG. 3 is a block diagram illustrating the contents of various databases constituting the diagnostic database.

FIG. 4 is a block diagram illustrating contents of a deterioration diagnosis service.

FIG. 5 is a diagram illustrating a corrosive gas concentration used as an environmental factor.

FIG. 6 is a diagram illustrating an environment division table.

FIG. 7 is a view exemplifying a weighting factor table of environmental factors.

FIG. 8 is a diagram illustrating a process of deriving a corrosion weight loss.

FIG. 9 is a diagram illustrating a deterioration progress state model formula.

FIG. 10 is a diagram illustrating an example of an environmental evaluation point classification table.

FIG. 11 is a diagram showing an example of a function for calculating an environmental evaluation point from values of environmental factors.

FIG. 12 is a diagram showing a change in a corrosion weight loss function.

FIG. 13 is a block diagram illustrating a schematic configuration of a deterioration diagnosis system that executes a deterioration diagnosis method according to a second embodiment of the present invention.

[Explanation of symbols]

 1, 13: deterioration diagnosis system 2: diagnosis client 3, 14, user client 4: diagnosis service provider 5, 15: diagnosis server 5a: access right management function 5b: input information supplement function 5c: deterioration diagnosis function 5d ... diagnosis result provision function 5e ... diagnosis cost accounting function 6, 18 ... financial institution server 7 ... network 8, 16 ... diagnosis database 9 ... mail server 10 ... environment classification table 11 ... environmental factor weighting table 12 ... environmental evaluation point classification Table 17: Payment agent 19: Payment agent server

Continued on the front page (72) Inventor Yoko Todo 1 Toshiba-cho, Fuchu-shi, Tokyo, Japan Inside the Toshiba Fuchu Office (72) Inventor Katsumi Kanehira 1-Toshiba-cho, Fuchu-shi, Tokyo Toshiba Corporation Fuchu Office, (72) Invention Person Akira Sawada 1 Toshiba-cho, Fuchu-shi, Tokyo (72) Inside the Fuchu Plant, Toshiba Corporation (72) Inventor Keiichi Sasaki 1-town, Toshiba-cho, Fuchu-shi, Tokyo Inside Fuchu Plant, Toshiba Corporation (72) Inventor Kazunari Kimura Yokohama, Kanagawa 2-4 Suehirocho, Tsurumi-ku, Tokyo Toshiba Keihin Works Co., Ltd. (72) Inventor Hiromi Imai 1 Toshiba-cho, Fuchu-shi, Tokyo Toshiba Fuchu Works Co., Ltd. (72) Inventor Tadayoshi Murayama 1-chome, Shibaura, Minato-ku, Tokyo No. 1 F-term in Toshiba Corporation Head Office (reference) 2G050 AA01 AA07 BA02 BA04 BA05 CA01 EA01 EA02 EC10 2G055 AA01 BA12 FA01 5H223 AA01 DD07 DD09 EE11

Claims (15)

[Claims] 1. A degradation diagnosis method performed by a server of a diagnostic service provider connected via a network to a client operated by a diagnostic requester, the method comprising the steps of: Inputting information, executing the deterioration diagnosis process based on the input area information and the diagnosis information stored in the diagnosis database in advance, and transmitting the result of the deterioration diagnosis process via the network. And providing the diagnosis requester to the diagnosis requester. 2. The deterioration diagnosis method according to claim 1, wherein the regional information includes a facility name of a public institution, an area code of a telephone, and a position designated by the diagnosis requester with respect to a displayed map. A degradation diagnosis method comprising at least one. 3. The deterioration diagnosis method according to claim 1, wherein the input area information is converted into area information of a format used in the diagnosis database, and the converted area information and the diagnosis are converted. A deterioration diagnosis method characterized by executing deterioration diagnosis processing based on diagnosis information stored in a database. 4. One of claims 1 to 3
In the deterioration diagnosis method described in the paragraph, the environmental evaluation point indicating the degree of environmental harm determined from the input local information, and the deterioration progress formulated to calculate the degree of deterioration based on the environmental evaluation point A deterioration diagnosis method characterized by executing deterioration diagnosis processing using a state model formula. 5. The deterioration diagnosis method according to claim 4, wherein the deterioration diagnosis process reads, from the diagnosis database, an environmental factor indicating an environmental state determined from the area information based on the input area information. Degrading the read environmental factors into scores according to a predetermined reference to obtain the environmental evaluation points, and calculating the deterioration progress state model formula based on the obtained environmental evaluation points. Diagnostic method. 6. One of claims 1 to 3
In the degradation diagnosis method described in the paragraph, the degradation using environmental assessment points indicating the degree of environmental harm determined from the input regional information and degradation change information indicating the progress of degradation for the environmental assessment points A deterioration diagnosis method characterized by performing a diagnosis process. 7. The deterioration diagnosis method according to claim 6, wherein when the deterioration progress state obtained based on the deterioration change information satisfies an alarm generation condition, alarm information is provided to the diagnosis requester via the network. A deterioration diagnosis method characterized by performing. 8. One of claims 1 to 7
The degradation diagnosis method according to any one of claims 1 to 3, wherein user authentication is performed for a diagnosis requester who requests access via the network, and information in the diagnosis database is managed for each diagnosis requester. 9. The method according to claim 1, wherein:
In the deterioration diagnosis method described in the section, when the information required to execute the deterioration diagnosis processing is insufficient, the diagnosis requester is requested to supplement the missing information via the network. And storing the supplemented information in the diagnosis database and executing the deterioration diagnosis process. 10. The deterioration diagnosis method according to any one of claims 1 to 9, wherein treatment information according to a state of deterioration is provided via the network together with a result of the deterioration diagnosis processing. A deterioration diagnosis method characterized by the above-mentioned. 11. The deterioration diagnosis method according to claim 1, wherein a result of the deterioration diagnosis processing is transmitted to the diagnosis requester via the network using a public mail. A degradation diagnosis method characterized by providing. 12. The deterioration diagnosis method according to claim 1, wherein a diagnosis cost management process is performed for the diagnosis requester who has provided a result of the deterioration diagnosis process. Method. 13. The deterioration diagnosis method according to claim 1, wherein the information input from the diagnosis requester via the network and a result of the deterioration diagnosis processing are provided. Wherein at least one of the methods is stored in the diagnosis database so that the diagnosis database can be used in the deterioration diagnosis process executed thereafter. 14. An input processing means for inputting regional information from a client operated by a diagnosis requester via a network, and based on the input local information and diagnostic information stored in a diagnostic database in advance. A diagnosis server, comprising: a diagnosis unit that executes a deterioration diagnosis process; and a providing unit that provides a result of the deterioration diagnosis process executed by the diagnosis unit to the client via the network. 15. A function for inputting local information from a diagnosis requester to a computer via a network, and a deterioration diagnosis based on the input local information and diagnostic information stored in a diagnostic database in advance. A computer-readable recording medium recording a program for realizing a function of executing processing and a function of providing a result of the deterioration diagnosis processing to the diagnosis requester via the network.