JP2003296482A - Inspection work progress display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a work manager to timely grasp an inspection state of an inspecting worker and to manage an inspection progress state by managing it by a network communication using a mobile terminal and an inspection work progress display. <P>SOLUTION: The mobile terminal 2 and a server computer 3 are communicatively connected to each other via a network 4. The mobile terminal is provided with an inspection course/equipment item information part 5, an inspection item display means 6, a display part 7, and an input part 8 and transmits an inspection start signal D<SB>1</SB>, equipment inspection data D<SB>2</SB>, an inspection completion signal D<SB>3</SB>, and an inspecting signal D<SB>4</SB>to the server computer. The server computer is provided with a receiving means 13, inspection information storage database 14, a data updating means 15, an updating time monitoring means 16, inspection course/equipment item database 17, a displaying means 18, and the display device 19. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention applies a network communication by a mobile terminal and a server computer to easily grasp the progress of the work in a management department when performing an inspection work of various facilities and manage an appropriate instruction. The present invention relates to an inspection work progress display device capable of performing.

[0002]

2. Description of the Related Art Conventionally, when inspecting various types of equipment, an inspector individually carries an inspection check sheet, a personal computer and other mobile terminals, etc. and goes to the site to perform inspection work for each equipment. It was common to carry out the inspections, fill in and enter the corresponding inspection items, and then bring the inspection results back to the management office. When repairs are required due to the discovery of defects, measures are taken such as discussing the correspondence by telephone contact.

In this case, in the case of inspection work at a plurality of sites, the situation cannot be grasped unless there is a telephone call from the office side about the location of the inspector and the inspection situation. Even if a sudden failure occurs in the target equipment or an emergency situation occurs, it is not possible to detect it unless the office side contacts, and it is not always possible to perform accurate instruction management. There is.

Further, when the inspection work is carried out at a plurality of places, the situation is changing every moment, so that even if an unexpected situation occurs and the inspection cannot be continued, a backup of the inspection is made. Spend a lot of time preparing,
In some cases, it may be difficult to respond promptly.

[0005]

As described above, in the past, when inspecting equipment, the inspector and the management department cannot share information about the progress of inspection during inspection work, so that the administrator can timely In some cases, it was not possible to accurately grasp the status of the inspection because it was not possible to grasp the exact situation. Further, even in the case of a sudden situation such as the inspection being stopped, the avoidance information may not be easily obtained and it may be difficult to take prompt action.

The present invention has been made in view of the above circumstances, and it is possible for the work management department to grasp the inspection status by the inspector in a timely manner, and it is possible to accurately manage the inspection progress state. It is an object of the present invention to provide an inspection work progress display device that can speed up the provision of avoidance information and response when an unexpected situation such as work stoppage occurs.

[0007]

In order to achieve the above object, in the invention according to claim 1, a mobile terminal operated by an inspector and a server computer installed in a management department are provided, and these mobile terminals are provided. An inspection work progress display device for supporting inspection work of equipment by network communication with a server computer, wherein the mobile terminal stores an inspection course / equipment item information section in which inspection equipment information is stored, and an information course stored in this information section. Inspection item display means for displaying the inspection facility information, a display section for displaying based on this inspection item display means, an input section for inputting inspection operation, and an inspection input from this input section Inspection start signal transmitting means for transmitting a start signal to the server computer, and facility for transmitting inspection result data of each facility input from the input unit to the server computer Inspection data transmitting means, an inspection end signal transmitting means for transmitting an inspection end signal input from the input section to the server computer, and an in-inspection signal transmitting to the server computer at a constant cycle from the start of inspection to the end of inspection A signal transmitting means, the server computer receives the inspection start signal, inspection result data, inspection end signal and in-inspection signal transmitted from the mobile terminal; and an inspection storing the received inspection result data. Information storage database, data update processing means for updating the inspection start signal, inspection result data, inspection end signal and in-inspection signal, update time monitoring processing means for monitoring the update time of the data, and this update time monitoring processing In the inspection course / equipment item database in which the equipment information including the inspection time of each of the above-mentioned equipment is stored in advance, Inspection start signal,
Based on the inspection result data, the inspection end signal, the in-inspection signal information, and the inspection time of each facility stored in the inspection course / equipment item database, the time required for the inspection of each facility is monitored and the predetermined time Provided is an inspection work progress display device characterized by comprising display processing means for outputting an abnormal message when inspection result data is not received, and a display device for displaying based on this display processing means. .

According to the second aspect of the present invention, in the inspection work progress display apparatus according to the first aspect, the mobile terminal transmits an inspection interruption signal to the server computer to interrupt the time monitoring when the inspection is temporarily interrupted. In addition, the server computer is equipped with an inspection interruption / resumption transmission means for transmitting a resumption signal at the time of resumption of inspection and resuming the continuous time monitoring, and the server computer monitors the time in response to the input of the inspection interruption signal and the restart signal from the mobile terminal. Provided is an inspection work progress display device comprising update time monitoring interruption / restart processing means for adjustment and the like.

According to a third aspect of the present invention, in the inspection work progress display device according to the first aspect, when the server computer exceeds a preset inspection time of the preset equipment, information on the manufacturer of the inspection equipment is provided. Further, there is provided an inspection work progress display device, which is provided with an equipment information search means for automatically searching for a contact and has a function of displaying a search result by the equipment information search means on a display device.

According to a fourth aspect of the present invention, in the inspection work progress display device according to the first aspect, the server computer includes work progress / remaining time prediction means for predicting the remaining work time based on the progress status of the inspection work. Provided is an inspection work progress display device having a function of displaying the predicted work time on a display device.

According to a fifth aspect of the present invention, in the inspection work progress display apparatus according to the first aspect, a plurality of mobile terminals are communicatively connected to one server computer, and each mobile terminal displays the remaining inspection work information. An inspection course equipment item requesting means for making a request to the server computer is provided, and the server computer responds to a request from the inspection course equipment item requesting means for storing the inspection course and equipment item data, and the inspection course equipment item requesting means. By creating the data of the state until the middle of the inspection, and the inspection item editing and transmitting means for transmitting to the mobile terminal, by transmitting the state data until the middle of the inspection from the server computer to the mobile terminal, by downloading, Provide an inspection work progress display device having a function of supporting the remaining inspection work

In the invention according to claim 6, in the inspection work progress display device according to claim 1, the mobile terminal collectively transmits all the data to the server computer again at the end of the inspection. An inspection work progress display device is provided.

According to the invention of claim 7, claims 1 to 6
The communication and data processing based on the function of the inspection work progress display device described in any one of the above items is described as a procedure, and one or more mobile terminals and a server computer are communicatively connected via a network. There is provided an inspection work support program, characterized in that facility inspection work is executed by the inspection work progress display device according to any one of 1 to 6.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

First Embodiment (FIGS. 1 to 14) FIG. 1 is a system diagram showing a system configuration of an inspection work progress display device according to a first embodiment of the present invention.

As shown in FIG. 1, the inspection work progress display device 1 of the present embodiment comprises a mobile terminal 2 operated by an inspector.
And a server computer 3 installed in the management department and capable of data communication with the mobile terminal 2 via the network 4.

The mobile terminal 2 displays an inspection course / equipment item information section 5 in which inspection facility information is stored and an inspection item display for displaying the inspection facility information stored in this inspection course / equipment item information section 5. A means 6 and a display unit 7 such as a display for displaying based on the inspection item display means 6 are provided.

The mobile terminal 2 is also provided with an input unit 8 such as a keyboard for inputting inspection operations, and the input unit 8
An inspection start signal transmission means 9 for transmitting an inspection start signal D1 input from the server computer 3 to the server computer 3, and an equipment inspection data transmission means 10 for transmitting equipment inspection result data D2 input from the input unit 8 to the server computer 3, An inspection end signal transmission means 11 for transmitting an inspection end signal D3 input from the input unit 8 to the server computer 3, and an inspection signal transmission for transmitting an inspection signal D4 to the server computer 3 at regular intervals from the start of inspection to the end of inspection. Means 12 and.

Further, the mobile terminal 2 transmits the inspection interruption signal D5 to the server computer 3 to interrupt the time monitoring when the inspection is temporarily interrupted, while transmitting the restart signal D6 when the inspection is restarted to continue the time monitoring. An inspection interruption / restart transmission means 20 for restarting the inspection is provided.

On the other hand, the server computer 3 is the mobile terminal 2
Inspection start signal D1, inspection result data D transmitted from
2. The receiving means 13 is provided for receiving the inspection end signal D3, the in-inspection signal D4, the inspection interruption signal D5, the restart signal D6 and the like. Further, an inspection information storage database 14 for storing the received inspection result data D2, an inspection start signal D1,
A data update processing means 15 for updating the inspection result data D2, the inspection end signal D3 and the in-inspection signal D4, and an update time monitoring processing means 16 for monitoring the data update time are provided.

Further, the server computer 3 is provided with an inspection course / equipment item database 17, and the inspection course / equipment item database 17 stores in advance equipment information including the inspection time of each inspection equipment. Further, the server computer 3 receives the inspection start signal D1, the inspection result data D2, the inspection end signal D3, the in-inspection signal D4 transmitted from the mobile terminal 2, and the inspection course / facility item database 1
The time required to inspect each inspection facility is monitored based on the inspection time of each inspection facility stored in 7, and an error message is output if the inspection result data is not received within the specified time. The display processing means 18 and a display device 19 for displaying a display based on the display processing means 18 are provided.

Further, the server computer 3 is provided with an update time monitoring interruption / resumption processing means 21 for adjusting the time monitoring in response to the input of the inspection interruption signal D5 and the restart signal D6 from the mobile terminal 2, and preset. Facility information retrieval means 22 for automatically retrieving information such as manufacturer information and contact information of the inspection facility when the prescribed inspection time for the facility is exceeded.
And a facility information storage database 23 for storing information to be used for the search by the facility information search means 22.

Next, information and the like applied by each of the above means will be described.

FIG. 2 is a block diagram showing information registered in advance in the inspection course / facility item information section 5 of the mobile terminal 2. In this inspection course / equipment item information section 5, for example, "inspection course 1" is registered as an inspection course corresponding to the inspection equipment.
"Inspection course 1 number of equipment n", its equipment name and number of inspection items, for example, "name of inspection equipment 1" ... "Name of inspection equipment n" and "number of inspection items m" are registered. In addition, specific information contents such as “name of inspection item”, “unit”, “limit value”, “data area”, etc. are registered for each inspection item. These pieces of information are displayed on the display unit 7 by the inspection item display means 6 when the mobile terminal 2 is started up at the time of facility inspection.

The inspection course / equipment item information section 5
In the table, "inspection start signal data", "inspection signal data", "inspection end signal data" and the like are registered as data of the inspection start signal D1, the inspection end signal D3, the in-inspection signal D4 and the like.

FIG. 3 shows the network 4 from the inspection start signal transmitting means 9 to the server computer 3 when the command "start inspection" is input from the input unit of the mobile terminal 2 at the start of inspection.
Data sent through the device, i.e. "start inspection signal"
The data structure of D1 is shown. The data of the signal D1 includes the "inspection course name" and its contents as the "inspection start instruction code". For example, "Inspection equipment 1
“Inspection status index a” is instructed for “code”, “inspection equipment 2 code” ... “inspection equipment n code”. When this index a is “0”, it is “uninspected”, and when it is “1”, it is “inspected” “Inspection”, “2” indicates “inspection completed”, and “3” indicates “inspection canceled”. By inputting this "inspection start signal data" to the server computer 3, information such as specification of inspection equipment, inspection state and input time of the data, and eventually inspection start time can be obtained.

FIG. 4 shows "inspection result data" D transmitted by the facility / inspection data transmitting means 10 of the mobile terminal 2.
2 shows the configuration. This data D2 includes "inspection result data instruction code" and its contents, that is, "inspection equipment code", "number of items of equipment n", "inspection start time",
"Inspection end time", "Inspection item tags 1 to n", "Time 1"
~ N "," data 2 to n ", etc. are included. For the "inspection equipment code", the "inspection status index a" is indicated,
When the index a is "4", it indicates "inspection stopped", and when it is "2", it indicates "inspection completed". As for the “inspection item tag”, “data index b” is designated, and when this index b is “0”, it is “valid”, and when it is “1”, it is “invalid”.

FIG. 5 shows the data structure of the "inspection end signal" D3 transmitted by the inspection end signal transmission means 11 of the mobile terminal 2. The data D3 includes the "inspection course name" and its contents as the "inspection end instruction code". For example, "check equipment 1 code", "check equipment 2 code" ... "check equipment n code"
The “inspection state index a” is designated, and when the index a is “4”, it indicates “inspection stopped”, and when it is “2”, it indicates “inspection completed”.

FIG. 6 shows the data structure of the “in-inspection signal” D4 transmitted by the in-inspection signal transmitting means 12 of the mobile terminal 2. This data D4 includes the "inspection course name" and its contents. For example, "Inspection equipment 1
"Inspection status index a" is instructed for "code" ... "Inspection equipment n code". When the index a is "0", it means "not inspected", when it is "1", it is "inspected", when it is "2", it means "inspected", and when it is "3", it means "inspected".

FIG. 7 shows the data structure of the “inspection interruption signal D5” and the “resumption signal D6” transmitted by the inspection / interruption restart transmission means 20 of the mobile terminal 2. The data of these signals D5 and D6 are represented as "interruption (or resumption) instruction code" for instructing interruption (or resumption), and include "inspection course name" and its contents. For example, the “inspection condition index a” is instructed for the “inspection facility 1 code” ... “Inspection facility n code”. When the index a is "0", it means "not inspected", when it is "1", it is "inspected", when it is "2", it means "inspected", and when it is "3", it means "inspected".

FIG. 8 shows the data structure stored in the inspection course / facility item database 17 of the server computer 3. This inspection course / equipment item database 1
The data of "inspection course 1" ... "inspection course x" and "inspection required time" is stored in 7 in correspondence with the inspection course / equipment item information section 5 of the mobile terminal 2, and the contents of the "inspection course" are stored. "Inspection course 1 facility number n", its facility name and number of inspection items, for example, "inspection facility 1 name"
... "Inspection equipment n name", "Number of inspection items m", "Predetermined inspection time", etc. are stored. In addition, specific information content about each inspection item, for example, "name of inspection item",
"Unit", "limit value", etc. are registered.

FIG. 9 shows a data structure stored in the inspection information storage database 14 of the server computer 3.
In the inspection information storage database 14, the data of the inspection start signal D1, the data of the in-inspection signal D4 and the data of the inspection end signal D3 transmitted from the mobile terminal 2 and the signal reception time thereof are written. In this case, when there are a plurality of mobile terminals (1 ... N), they are respectively stored in predetermined data areas. In addition, in the inspection information storage database 14, "inspection equipment (1 ... n) code"
And its “number of inspection items (1 ... n)” are stored. Each "inspection item code" includes "unit", "date", "data" and the like.

FIG. 10 shows the data structure stored in the facility information storage database 23 of the server computer 3. As the "equipment information" of the equipment information storage database 23, for example, "manufacturer" and its "phone number", "manual and link (for example," electronic medium manual ")", "specialist name" and its "phone number" , “Inspection cycle”, “applicable laws and regulations”, and “inspection history and link (for example,“ inspection history ”and“ report etc. ”) and the like.

Next, the operation will be described with reference to FIGS. FIG. 11 is a time chart showing an example of data transmission from the mobile terminal 2 and data monitoring in the server computer 3. 12 to 14 are flowcharts showing the processing procedure in the update time monitoring processing means 16 of the server computer 3.

As shown in FIG. 11, in the present embodiment, as an example, a case where five equipments (equipment 1 to equipment 5) are inspected by one mobile terminal 2 will be described.

In the mobile terminal 2, first, the inspection start signal (D1) is emitted from the inspection start signal transmitting means 9 and transmitted to the server computer 3. Next, in order to confirm that the communication is not cut off, the in-inspection signal (D4) of a constant cycle is continuously sent from the in-inspection signal transmitting means 12 to the server computer 3.

After the inspection start signal (D1) is transmitted, the facilities 1 to 5 are sequentially inspected while the in-inspection signal (D4) is transmitted, and the inspection results of the respective facilities 1 to 5 are inspected. As a result data signal (D2), the inspection results of the equipment 1 are sequentially transmitted to the server computer 3.

In the server computer 3, the equipment inspection time monitoring of the equipment 1 is started from the time when the inspection start signal (D1) is received. And each equipment 1 to 5 set in advance
Corresponding to the inspection time (monitoring time Tn), the input of the inspection result data signal (D2) is sequentially confirmed and displayed.

When all the facilities 1 to 5 have been inspected, the transmission of the in-inspection signal (D4) is stopped, and the inspection end signal transmitting means 12 transmits the inspection end signal (D3) to the server computer 3. This completes the transmission of the inspection from one mobile terminal 2.

Next, a specific procedure for displaying the progress of inspection work will be described. First, when the inspector launches the mobile terminal 2 at the inspection facility position, the information such as the inspection facility and the inspection item shown in FIG. 2, which is pre-registered in the inspection course / equipment item information section 5 of the mobile terminal 2, is displayed. It is displayed on the display section 7 by the inspection item display means 6. After that, when the inspector inputs an inspection start through the input unit 8, the inspection start signal transmitting means 9 transmits the inspection start signal D1 shown in FIG. 3 to the server computer 3 via the network 4.

In the server computer 3, the inspection start signal D1 is input through the receiving means 13, the input data is recognized as new data by the data updating means 15, and is stored in the inspection information storage database 14 together with the input time. Then, the computer time is written here.

The inspection disclosure signal D1 is sent to the update time processing means 16
The update time processing means 16 performs the update time monitoring process according to the following update time monitoring process procedure.

FIG. 12 is a flow chart showing the update time monitoring processing procedure in the server computer 3. This Figure 1
The procedure shown in 2 is roughly that the update time processing means 16 receives the data a of the inspection start signal D1 and receives the inspection start instruction, which means that the inspection is being monitored = 1, and the inspection facility to be monitored n =
The present time is taken out as 1, and the predetermined inspection time in the inspection equipment 1 to be monitored is taken out from the stored data of the inspection course / equipment item information database 17. Then, the predetermined monitoring time Tn is set to wait for the next data.

More specifically, after the start, the inspection state index a is set to the state of uninspected "0" (S101), and data waiting is performed (S102). In this data waiting step S102, a constant delay time Δt is set by the timer circuit of the update time processing means 16 (S110).
1) The progress data is notified to the inspection information storage database 14 (S1102), and data waiting is performed at intervals of this time Δt.

Next, it is judged that the inspection end signal D3 is received (S103). As described above, when the inspection start signal D is input from the mobile terminal 2, the inspection end signal D3
Is not received, in this case, step S10
3 is NO. Then, in the next step (S104), it is determined whether or not the inspection and monitoring are being performed, that is, whether or not the inspection means index a is "1".

Immediately after the start, the index during inspection and monitoring is "0".
And step S104 is NO. If the determination in step S104 is NO, it is next determined whether or not an inspection start instruction has been received (S105), and no inspection has been received (NO).
Then, it is subsequently determined whether or not the inspection result of the equipment n is received (S106). Also in this judgment, no reception (N
If it is O), the data waiting (S102) is repeated.

On the other hand, the inspection start signal D from the mobile terminal 2
When 1 is input, the determination in step S105 is Y.
ES, that is, during inspection and monitoring (index a = 1), becomes (S1
07), the inspection of the equipment 1 starts up (S108).
In this case, the start time (Stime) is set as the current time (S109), and the predetermined monitoring time Tn for the equipment 1 is set (S110). In this state, step S104 is YES.

Therefore, when it is determined in step S104 that the inspection and monitoring are in progress (YES), it is determined whether or not the inspection result data D2 for the predetermined equipment n (equipment 1 in the initial stage) has been received. (S111). If it is determined that the equipment n inspection result is received within the monitoring time Tn in this step S111 (YES), the inspection result data D2
Is input, the data number is updated from "n" to "n + 1" (S112, S113), and the next data wait (S1
02) is performed.

The handling of the signal processing in each of the above steps by a specific means is as follows. That is, the mobile terminal 2 transmits the data a of the inspection start signal D1 to the server computer 3, and then transmits the data a of the inspection start signal D1 to the server computer 3 by the in-inspection signal transmission means 12 in order to confirm that the communication is not interrupted.
The in-inspection signal D4 shown in FIG. 6 is continuously sent at constant time intervals. Then, the inspection signal D4 is input to the data updating unit 15 via the receiving unit 14 of the server computer 3. The in-inspection signal D4 is overwritten and updated in the in-inspection signal data storage area of the inspection information storage database 14, and the computer time is also written and passed to the update time processing means 16. The update time processing means 16 uses the in-check signal D.
Since 4 is received, 1 is maintained during inspection and monitoring, and the state of continuous monitoring is maintained and the state of data reception is maintained.

Now, the subroutine of the step of waiting for data (S102) shown in FIG. 12 will be described with reference to the flowchart shown in FIG.

As shown in FIG. 13, the update time processing means 1
6 notifies the data waiting unit of the lapse of time at a fixed time Δt (S1101, S1102), and determines whether or not the inspection signal D4 is received (S120) and whether or not the inspection and monitoring are being performed (S121). Is going. Further, the in-check signal D4 is counted (S119, S122, S123, S1.
24) and comparison with a predetermined maximum value (S125). When the in-inspection signal D4 cannot be received even after the elapse of a certain time defined as the maximum value (Max) (S1
(20, YES) sets the index of 1 during inspection and monitoring to 0 (S126), and suspends inspection and monitoring.

Next, the process returns to the main routine of FIG.

The above-mentioned data waiting step (S10)
In 2), when the inspection item input of the equipment 1 is completed on the mobile terminal 2 and the equipment inspection transmission means 10 transmits the inspection result data configuration b of the equipment inspection data D2,
In the server computer 3, the inspection result data structure b fetched by the data updating means 15 is sent to the inspection information database 14 via the receiving means 13. In the inspection information storage database 14, in the inspection equipment storage area corresponding to the inspection equipment n code of the inspection result data structure b,
The data is updated. The updated data is delivered to the update time processing means 16.

In this way, the step of waiting for data (S1
02), the inspection result data structure b shown in FIG.
Are sequentially received, and the equipment subject to time monitoring is assigned to the next equipment. In this case, as described above, the current time is initially set as Stime (S108), and the predetermined inspection time of the inspection target inspection equipment n stored in the inspection course / equipment item information database 17 is extracted. It is set to the monitoring time Tn (S11
0), the next data waiting is performed.

By the way, the step of waiting for data (S10
If the equipment inspection data D2 is not received in 2) (S111, NO), the current time (Etime) is newly added.
Is taken in (S114), and the elapsed time from the input time (Stime) of the inspection start signal D1 is calculated (S115). Then, based on this result, the necessary suspend / resume processing (S116) is performed. That is, it is determined whether or not the above-described elapsed time exceeds the predetermined monitoring time Tn (S117), and if it does not exceed the predetermined monitoring time Tn (S11).
No. 7, NO), the next data wait (S102) is performed. On the contrary, if the elapsed time exceeds the predetermined monitoring time Tn, the equipment inspection data D2 is within a predetermined time for some reason. Is not input to the display means 18
A message request is made via, and a message necessary for support is output from the display device 19 as described later (S118).

That is, regarding the predetermined inspection time monitoring in the equipment to be monitored, data waiting is performed at every constant time Δt, and the in-inspection signal transmitted by the mobile terminal 2 at a constant interval is received over time. It is monitored whether or not the difference between the current time Etime at the time of inspecting and monitoring = 1 indicating that the inspection is being performed and the facility inspection start time Stime is larger than the monitoring time Tn. If the difference is small, the process waits for data (S102). If the difference is large, a message request is output to the display device 19 via the display processing means 18 because the predetermined inspection time has been exceeded ( S118).

FIG. 14 is a flow chart showing a subroutine of step S116 of the suspending / resuming process shown in FIG. Here, a procedure for suspending the time monitoring on the server computer 3 side and restarting the time monitoring when it is desired to temporarily suspend the inspection during the inspection will be described.

As described above, the mobile terminal 2 is provided with the inspection suspending / resuming means 20, and the server computer 3 together with the receiving means 13, the data updating means 15 and the update time monitoring processing means 16 suspends the update time monitoring. The restart processing means 21 is provided. Then, the inspection interruption / resumption means 20 of the mobile terminal 2 can transmit the interruption signal D5 and the restart signal D6 having the data configuration shown in FIG. 7 to the server computer 3, and the server computer 3 and the receiving means 13 and the data update. First, the update time monitoring processing means 1 via the processing means 15.
The interrupt signal D5 and the restart signal D6 are delivered to the switch 6.

The update time monitoring processing means 16 inquires of the received data of the interrupt signal D5 and the restart signal D6 to the update time monitoring interrupt / resume means 21 to interrupt and restart the update time monitoring. In the update time monitoring processing flow procedure shown, this interruption / restart processing step S
Step S11 for judging that the monitoring time has expired
It is set before 7.

This interruption / resumption processing step S116 is
As shown in the subroutine of FIG. 14, first, in the update time monitoring suspending / resuming means 21, an inquiry is made as to whether the update is in progress (index "1") (S201). Here, if the interruption is not in progress (NO), the interruption signal data is received (S202), and if it is not received (NO).
Ends the process.

On the other hand, when the interruption signal data is received (S202, YES), the signal "1" indicating the interruption is raised (S203), and the remaining monitoring time Tn of the equipment is calculated.
The elapsed time is calculated by the update time monitoring processing means 16 from the stored value (S204, S205, S206), and the remaining time calculated here is added to obtain the monitoring time Tn. Also, by always extending the remaining time, the process of being in the suspended state is performed.

During the interruption (S201, YE
S), when the restart signal data is received (S207,
YES), the remaining time is added to the elapsed time (S208,
In S209), by stopping the process for setting the monitoring time Tn, the normal state is established.

As described above, according to the present embodiment, by requesting inspection suspension / restart from the mobile terminal 2,
Monitoring on the server computer 3 side can be interrupted, and other work can be easily interrupted during the inspection work.

Next, the server computer 3 automatically retrieves and displays the information of the equipment in which the work delay occurs in FIG.
The operation of steps S117 and S118 will be described.

As described above, the server computer 3 includes the update time monitoring processing means 16, the display processing means 18, and the display device 1.
9 and the like, equipment information retrieval means 20 and equipment information storage database 23 are provided. Then, as shown in FIG. 10, the facility information search means 20 includes a manufacturer,
Equipment-related data such as telephone numbers, manuals, and inspection history are stored.

Therefore, when it is determined in step S117 that the predetermined inspection time has been exceeded (S11
(7, YES), and the message display request (S118) is made because the predetermined inspection time has been exceeded. A message is output to the display device 19 via the display processing means 18 in accordance with the message display request in step S118. In this case, in the present embodiment, the facility information shown in FIG. 10 is input to the facility information search means 22 from the facility information storage database 23.

Therefore, the facility information search means 22 compares the actual facility information with the facility information input from the facility information storage database 23, and identifies the manufacturer, telephone number, etc. registered in the matched facility information. Information relating to the equipment is taken out, and the display device 19 is displayed via the display processing means 18.
To display.

As a result, the equipment information detected by the monitoring time check can be easily obtained.

When the inspection of all the facilities is completed, the inspector inputs the inspection completion through the input unit of the mobile terminal 2. As a result, the inspection end signal transmitting means 11 transmits the inspection end signal D3 shown in FIG. 5 to the server computer 31, and the transmission of the in-inspection signal D4 is stopped.

In the server computer 3, the data of the inspection end signal D3 is passed to the data updating means 15 via the receiving means 13, the data is stored in the inspection information storage database 14, and the computer time is also written. Also, these data are transferred to the update time processing means 16. And
The update time processing means 16 finishes monitoring and returns to the initial state.

As described above, after the inspection start signal D1 is transmitted, the in-inspection signal D4 is always transmitted, and while confirming that the communication with the mobile terminal 2 is normal, the equipment n
It is monitored whether the inspection result data is received by the server computer 3 within a predetermined time, and the monitoring ends when the inspection end signal D3 is input.

According to this embodiment, when a work is carried out by inspection, it is possible to grasp the work in which a delay has occurred, and it is possible to manage the instruction in a timely manner.

In addition, various measures are taken such as requesting inspection / restarting, suspending monitoring, interrupting other work, and acquiring equipment information and dealing when the monitoring time is exceeded. You can

As described above, according to the present embodiment, it is possible to check the progress of the work in the equipment inspection in a timely manner, to grasp the abnormal state of the inspection work, and to backup the work as a whole. It is possible to predict the work completion time in parallel. Further, since the equipment information in the inspection work is automatically provided, it is possible to contribute to the management of the progress of the equipment inspection work and the maintenance of the equipment.

Second Embodiment (FIG. 15) In this embodiment, for the inspector who has trouble in the facility inspection based on the configuration of the first embodiment, the remaining work and the progress status of the entire inspection work are predicted and displayed. It has a function to add.

FIG. 15 is a functional block diagram schematically showing an additional configuration to the server computer 3. Note that, except for the configuration shown in FIG. 15, it will be described with reference to FIGS.

As shown in FIG. 15, in this embodiment, the server computer 3 has the same receiving means 13, data update processing means 15, display processing means 18, and display device 1 as in the first embodiment.
9. In addition to the inspection information storage database 14, the inspection course / equipment item database 17, and the equipment information storage database 23, a work progress / remaining time prediction means 24 is provided.

A plurality of mobile terminals 2 (mobile terminals (1) to (n)) are communicatively connected to the server computer 3 via the network 4 as described above.

The work progress / remaining time predicting means 24 operates the work of all mobile terminals based on the inspection time of each facility stored in the facility information storage database 23 and the remaining inspection time of the in-inspection and uninspected facilities. It has a function of calculating the progress status and the remaining time and displaying it on the display device 19 via the display processing means 18.

That is, the server computer 3 receives inspection data from a plurality of mobile terminals 2 (mobile terminals (1) to (n)) via the data update means 15, and the data update processing means 15 stores the inspection information. Database 14
To update the data. In this state, the work progress / remaining time prediction means 24 takes out the reception signal data of each mobile terminal 2 stored in the inspection course / facility information storage database 17, and in the data, the inspection start signal shown in FIG. The required inspection time of the facility information storage database 23 is extracted from the "inspection course name" in the data of D1 and is added to the reception time to predictively calculate the end time.

When the inspection is in progress, the progress of the inspection work can be grasped by the inspection course name and the inspection state index data (FIG. 6) in the data of the inspection signal D4.
Based on the predetermined inspection time of each equipment stored in the equipment information storage database 23, the end time is predicted and calculated together with the in-inspection signal data reception time by adding the remaining in-inspection and uninspected predetermined inspection times. .

In this way, the inspection work progress / remaining time predicting means 24 causes all the mobile terminals 2 (mobile terminals (1) to 1) to be stored in the inspection information storage database 14.
The remaining time calculation of (n) and the equipment inspection state can be displayed on the display device 19 via the display processing means 18.

According to this embodiment, in addition to the effects of the first embodiment, it is possible to easily predict the overall work progress status and individual remaining work time of each mobile terminal 2 based on the work content. .

Third Embodiment (FIG. 16) This embodiment makes it possible to take over the inspection work from one mobile terminal 2 to another mobile terminal 2a. That is, the remaining inspection work information of one mobile terminal 2 possessed by a certain inspector is downloaded from the server computer 3 to the mobile terminal 2a possessed by another inspector via the network 4, and the remaining inspection work is performed by the other inspection worker. The work is taken over so that it can be performed.

FIG. 16 is a functional block diagram schematically showing the configurations of the mobile terminal 2 and the server computer 3 having an additional configuration for downloading. The first embodiment is also the first
It is based on the embodiment, and FIGS. 1 to 14 are also referred to other than the configuration shown in FIG.

As shown in FIG. 16, the mobile terminal of this embodiment includes an inspection course / equipment item information section 5 in addition to the inspection course / equipment item information section 5 in addition to the one mobile terminal (not shown) and the other mobile terminal 2a shown. The item request means 25 is provided. In addition to the receiving means 13, the inspection information storage database 14 and the inspection course equipment item database 17, the server computer 3 also adds the inspection item editing / transmitting means 26.
Is equipped with.

In this embodiment, when an inspector having one mobile terminal (not shown) stops the work in the middle of the inspection work for some reason, in the present embodiment,
It is assumed that the inspector who has another mobile terminal 2a takes over the inspection work items up to the middle of the inspection by one mobile terminal.

In this case, a dialogue request is made from one mobile terminal to another mobile terminal 2a, and the other mobile terminal 2a
In a, the inspection course / equipment item requesting means 25 transmits the inspection course to be taken over to the server computer 3.

When the receiving means 13 of the server computer 3 receives the request data, the server computer 3 transfers the request data to the inspection item editing / transmitting means 26. Based on the inspection course, the inspection item editing / transmitting means 26 compares the inspection course with the courses registered in the inspection course equipment item database 17, and from the target course name, the "number of equipment" and "inspection equipment" of the inspection course. name",
Information necessary for inspection such as “number of inspection items”, “inspection item name”, “unit”, “limit value” is retrieved.

Further, from the inspection information storage database 14, the equipment inspection state is taken out from the inspection start data and the in-inspection signal data of one mobile terminal, and the equipment data for which the inspection is completed is taken out. These data are edited by the inspection item editing / transmitting means 29 and returned to the other mobile terminal 2a side.

The other mobile terminal 2a registers the returned data in the inspection course / equipment item information section 5 and restarts the inspection from the portion where the inspection work is incomplete.

According to the present embodiment as described above, it is possible to easily hand over the inspection work from one mobile terminal to another mobile terminal 2a on the way.

Fourth Embodiment (FIG. 17) In this embodiment, after the inspection is completed, all the data is collectively transmitted from the mobile terminal 2 to the server computer 3 so that the consistency of the data can be easily confirmed.

FIG. 17 is a functional block diagram schematically showing the configurations of the mobile terminal 2 and the server computer 3 having the batch transmission function. Note that this embodiment is also based on the first embodiment, and FIGS. 1 to 14 are also referred to other than the configuration shown in FIG.

As shown in FIG. 17, the mobile terminal 2
Inspection end signal transmitting means 27 and batch retransmission transmitting means 28
The server computer 3 includes a receiving unit 13, a data updating unit 15, an inspection information storage database 14, and the like.

In such a structure, when the inspection is finished, the inspection end signal transmitting means 27 of the mobile terminal 2 is sent.
The end signal data is transmitted to the server computer 3, and thereafter, the batch resending transmission means 28 transmits all the data relating to the inspection to the server computer 3 again.

In the server computer 3, the receiving means 13
The data is updated by the data updating means 15 via
Further, all the data is overwritten on the inspection information storage database 14.

Therefore, according to the present embodiment, the data including corrections can be transmitted after the inspection is completed by performing the collective retransmission transmission from the mobile terminal 2, so that the consistency of the data can be easily achieved. You can

Other Embodiments It should be noted that the present invention can be implemented in any combination of the equipment configurations described in the above embodiments.

Further, communication and data processing based on the function of the inspection work progress display device described in any of the above-described embodiments are described as procedures, and one or a plurality of mobile terminals and a server computer are communicated via a network. It is also possible to implement it as an inspection work support program for connecting and executing the facility inspection work by the above-mentioned inspection work progress display device, or it is also possible to carry out in the state where this program is stored in a recording medium.

[0101]

As described above, according to the present invention, the progress of work in equipment inspection can be confirmed in a timely manner, the abnormal state of the inspection work can be grasped, and the work is backed up. For example, it is possible to predict the work completion time of the whole in parallel. Further, since the equipment information in the inspection work is automatically provided, it is possible to contribute to the management of the progress of the equipment inspection work and the maintenance of the equipment.

[Brief description of drawings]

FIG. 1 is a functional configuration diagram showing an inspection work progress display device according to a first embodiment of the present invention.

FIG. 2 is an explanatory diagram showing a data structure in an information section of the mobile terminal according to the first embodiment of the present invention.

FIG. 3 is a configuration diagram showing signal data of a mobile terminal according to the first embodiment of the present invention.

FIG. 4 is a configuration diagram showing signal data of a mobile terminal according to the first embodiment of the present invention.

FIG. 5 is a configuration diagram showing signal data of the mobile terminal according to the first embodiment of the present invention.

FIG. 6 is a configuration diagram showing signal data of the mobile terminal according to the first embodiment of the present invention.

FIG. 7 is an explanatory diagram illustrating a data configuration of a server computer according to the first embodiment of this invention.

FIG. 8 is an explanatory diagram showing a data configuration of a server computer according to the first embodiment of this invention.

FIG. 9 is an explanatory diagram showing a data configuration of a server computer according to the first embodiment of this invention.

FIG. 10 is an explanatory diagram showing a data configuration of a server computer according to the first embodiment of this invention.

FIG. 11 is a time chart showing the operation of the first embodiment of the present invention.

FIG. 12 is a flowchart showing the operation of the first embodiment of the present invention.

FIG. 13 is a flowchart showing the operation of the first embodiment of the present invention.

FIG. 14 is a flowchart showing the operation of the first embodiment of the present invention.

FIG. 15 is a functional configuration diagram of a server computer showing a second embodiment of the present invention.

FIG. 16 is a functional configuration diagram of a mobile terminal and a server computer showing a third embodiment of the present invention.

FIG. 17 is a functional configuration diagram of a mobile terminal and a server computer showing a fourth embodiment of the present invention.

[Explanation of symbols]

1 Inspection work progress display 2 mobile terminals 3 server computer 4 network 5 Inspection course / equipment item information section 6 Inspection item display means 7 Display 8 Input section 9 Inspection start signal transmission means 10 Equipment inspection data transmission means 11 Inspection end signal transmission means 12 In-inspection signal transmission means 13 Receiving means 14 Inspection information storage database 15 Data update processing means 16 Update time monitoring processing means 17 Inspection course / equipment item database 18 Display processing means 19 Display 20 Inspection interruption / restart transmission means 21 Update time monitoring suspend / resume processing means 22 Equipment information search means 23 Equipment information search means 24 Work progress / remaining time prediction means 25 Inspection course / equipment item requesting means 26 Inspection item editing / transmission method 27 Inspection end signal transmission means 28 Collective retransmitting means

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Masami Hiyoshi             1-24 East, 2-24 Harumi-cho, Fuchu-shi, Tokyo             Shiba System Technology Co., Ltd. (72) Inventor Satoshi Koji             1-24 East, 2-24 Harumi-cho, Fuchu-shi, Tokyo             Shiba System Technology Co., Ltd.

Claims (7)

[Claims] 1. An inspection work progress display device comprising a mobile terminal operated by an inspector and a server computer installed in a management department, which supports the inspection work of equipment by network communication between the mobile terminal and the server computer. There
The mobile terminal is based on an inspection course / equipment item information section in which inspection equipment information is stored, an inspection item display means for displaying inspection equipment information stored in this information section, and the inspection item display means. A display unit for displaying, an input unit for inputting for inspection operation, an inspection start signal transmitting means for transmitting an inspection start signal input from this input unit to the server computer, and an input for inputting from the input unit. Equipment inspection data transmission means for transmitting inspection result data of each equipment to the server computer, inspection end signal transmission means for transmitting an inspection end signal input from the input unit to the server computer, and inspection start to inspection end An in-inspection signal transmitting means for transmitting an in-inspection signal to the server computer at a constant cycle until the server computer starts the inspection transmitted from the mobile terminal. No., inspection result data, inspection end signal and in-inspection signal, receiving means for receiving the inspection result data received, inspection start signal, inspection result data, inspection end signal and in-inspection signal A data update processing means for updating the data, an update time monitoring processing means for monitoring the update time of the data, and an inspection course in which the update time monitoring processing means stores in advance equipment information including the inspection time of each equipment. Facility item database, inspection start signal, inspection result data,
Inspection end signal and in-inspection signal information and the inspection course
Based on the inspection time of each equipment stored in the equipment item database, the time required to inspect each equipment is monitored, and an abnormal message is output when the inspection result data is not received within the predetermined time. Display processing means,
An inspection work progress display device, comprising: a display device for performing display based on the display processing means. 2. The inspection work progress display device according to claim 1, wherein the mobile terminal transmits an inspection interruption signal to the server computer to interrupt the time monitoring when the inspection is temporarily interrupted, and a restart signal when the inspection is restarted. Is equipped with an inspection interruption / restart transmission means for transmitting the
An inspection work progress display device, wherein the server computer comprises update time monitoring interruption / resumption processing means for adjusting time monitoring in response to input of an inspection interruption signal and a restart signal from the mobile terminal. 3. The inspection work progress display device according to claim 1, wherein the server computer automatically provides information and a contact information of a manufacturer of the inspection facility when a preset inspection time of the facility is exceeded. An inspection work progress display device, comprising: facility information search means for performing a search, and having a function of displaying a search result by the facility information search means on a display device. 4. The inspection work progress display device according to claim 1, wherein the server computer includes work progress / remaining time prediction means for predicting the remaining work time based on the progress status of the inspection work, and the predicted work time. An inspection work progress display device characterized by having a function of displaying on a display device. 5. The inspection work progress display device according to claim 1, wherein a plurality of mobile terminals are communicatively connected to one server computer, and each mobile terminal requests remaining inspection work information to the server computer. An inspection course equipment item requesting means is provided, and the server computer has an inspection course / equipment item database for storing data of an inspection course and equipment items, and a state up to the middle of inspection in response to a request from the inspection course equipment item requesting means. It is equipped with inspection item editing / transmission means for creating data of and transmitting to the mobile terminal, and supports the rest of the inspection work by transmitting the state data up to the middle of inspection from the server computer to the mobile terminal and downloading it. An inspection work progress display device having a function of performing. 6. The inspection work progress display device according to claim 1, wherein the mobile terminal is provided with a collective retransmitting unit for data matching that collectively transmits all the data to the server computer again at the end of the inspection. Check work progress display device. 7. The communication and data processing based on the function of the inspection work progress display device according to any one of claims 1 to 6 is described as a procedure, and one or a plurality of mobile terminals and a server computer are connected to a network. An inspection work support program, characterized in that the inspection work progress display device according to any one of claims 1 to 6 is used to perform a facility inspection work through communication connection via the inspection work progress display device.