JP2002342412A - Maintenance and management plan preparing system for construction equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the quality of equipment, etc., and to improve economical effect. SOLUTION: A plan is made taking the operation state of standard equipment and the temporarily setting of a maintenance plan on the operation of equipment is set by a setting part 14a by using information from a building equipment database 21. When this setting by the part 14a is finished, an equipment importance or no importance selection part 14b selects the importance degree of the equipment and selects preventive maintenance and after maintenance by using the database 21. After this, a correction part 14c corrects the numerical value of operating state evaluation, an average failure interval, an average time for repairing a fault by using equipment operation information from an equipment operation database 22. This correction part 4c collects information occurring in a maintenance process by each equipment and part. After this, a processing part 14d performs re-building processing by using information in an equipment maintenance database 23. An adjustment part 14e adjusts a maintenance plan rebuilt by this processing part 14d.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a daily inspection, a periodic inspection, a periodic inspection, and a periodic maintenance of many equipments (refrigerators, boilers, etc.) installed in a building and parts constituting the equipment. The present invention relates to a system for preparing a maintenance management plan for building equipment when smoothly performing such operations.

[0002]

2. Description of the Related Art The maintenance of building equipment is performed for the purpose of always maintaining the performance of the building equipment in an appropriate state. As described above, the maintenance plan performed for this purpose sets different inspections, inspections, maintenance items, inspections, inspections, and maintenance cycles for each equipment and component, and thus the work required to create these Is complicated. For this reason, standard ones have conventionally been created and dealt with by changing those parts.

[0003]

However, if the daily inspection, the periodic inspection, the periodic inspection, and the periodic maintenance as described above are performed using the maintenance manual prepared as a standard, there is a trade-off between these inspections and the like. It is efficient and economical to implement according to the degradation characteristics of equipment etc. in the maintenance of standard creation, but in practice, it is implemented according to the degradation characteristics of equipment etc. Often not. For this reason, when standard maintenance is performed, maintenance is performed even in a state where deterioration characteristics are not advanced, so that there is much waste due to over-maintenance.

[0004] The present invention has been made in view of the above circumstances, and the maintenance is carried out in accordance with the deterioration characteristics of equipment and the like.
It is an object of the present invention to provide a system for preparing a maintenance management plan for building equipment, which aims to improve the quality of equipment and the like, and to improve the economic effect by performing the work efficiently.

[0005]

In order to achieve the above object, a first invention is to provide a maintenance center for a group of equipment in each building facility and a group of equipment in each building facility of the center via the Internet. Maintenance plan control means to systematically maintain through the, and connected to the Internet, the maintenance plan control means via the Internet, building facilities of each facility, equipment and the operating status and maintenance of the equipment, Maintenance management plan creation means for supplying equipment maintenance management plan information such as operating status of equipment, inspection cycle, equipment failure interval, equipment repair time, and importance / insignificance of equipment. It is.

According to a second aspect of the present invention, the maintenance plan creating means creates a maintenance plan using the building equipment information of a building equipment database and temporarily sets an initial value of the maintenance plan relating to the operation of the equipment. Use the building equipment database to select a temporary setting section and select the degree of importance of the equipment and select preventive maintenance and post-maintenance for each equipment using the building equipment database.
Using the insignificant selection unit and the equipment operation information from the equipment operation database, correct the numerical values of the operating state evaluation, the average failure interval, and the average time of failure repair, and use the information generated in the maintenance process for equipment and parts. A correction unit that collects each failure and analyzes each deterioration characteristic using a life prediction method.Based on the results of this correction unit, the average failure interval
A reassembly processing unit that adds a prediction method to the average time of failure repair and reassembles a maintenance plan using information in the equipment maintenance database, and a reassembly route in this reassembly processing unit. A correction unit that matches the entire equipment and items, and stores the reassembled maintenance plan in the maintenance medium-term and long-term plan database, and sends the information corrected by the correction unit to the selection unit. The information of the building equipment database is rewritten.

[0007]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration of an embodiment of the present invention. In FIG. 1, reference numeral 11 denotes a maintenance management plan controlling means for building equipment. It is connected to the equipment group 13 of the equipment maintenance center. The Internet 12 is connected to a maintenance management plan creating means 14 which will be described in detail later. Reference numeral 15 denotes a database of building facilities and equipment operation, and the like.

Next, details of the maintenance plan creating means 14 will be described with reference to FIG. In FIG. 2, first, a plan is created by taking up the operating state of the standard equipment, a maintenance management plan is created, and “year / month / month / year / month / year / month / month / year / month / Day "
The provisional setting of the maintenance plan relating to the operation of the equipment is set by the maintenance plan provisional setting section 14a. When the setting in the tentative setting unit 14a is completed, the device importance / non-importance selection unit 14b uses the building equipment database 21 to select the degree of importance of the device and to select the preventive maintenance or the post-maintenance for each device.

After the selection of the device importance / non-importance by the selection unit 14b is completed, the operation state evaluation and the mean time between failures (MTB) are performed using the device operation information from the device operation database 22.
F), a numerical value such as an average time for repair (MTTR) is corrected by the correction unit 14c. The correction unit 14c collects information generated in the maintenance and maintenance process for each device and component, and analyzes the deterioration characteristics of each of them by a so-called Weibull analysis, a Weibull-type cumulative hazard method, an analysis by an extreme value distribution, and an integrity analysis (logarithmic analysis). The analysis is performed using a life prediction method such as normal distribution analysis. Then, with respect to these results, PDCA
(Plan-execution-check-action).

Based on the result of the correction unit 14c, a prediction method based on a maximum method and a minimum method is added as a correction method to MTBF, MTTR, and the like for each device / part, and reassembly of a maintenance plan is performed. This is performed by the reassembly processing unit 14d. At the time of reassembly in the processing unit 14d, the entire inspection route, inspection equipment and items, etc. are matched. At this time, the adjustment is performed by mathematical programming or the like.

The maintenance plan reassembled by the maintenance plan reassembly processing unit 14d is corrected by the correction unit 14e.
The information is stored in the maintenance medium- and long-term plan database 24. The information corrected by the correction unit 14e is transmitted to the selection unit 14
b, the information in the building equipment database 21 is rewritten.

As described above, the maintenance management plan creating means 1
4 is composed, but the maintenance management plan creation means 1
4 is a schedule coordinating section 25, and equipment and equipment management section 2
6. Each unit is also rewritten by information from the plan check unit 27 and the maintenance cost evaluation unit 28.

Next, the schedule adjusting unit 25 and the like will be described. The schedule coordinating unit 25 provides maintenance staff, man-hours, sudden failures and the accommodation of staff of other facilities, etc., as well as coordination information such as checking of the inspection order. Information on equipment / equipment plans, etc. for the current fiscal year, and information on equipment / equipment plans for the current fiscal year. The maintenance cost evaluator 28 sends information on whether the life cycle cost (LCC) is appropriate and information on the estimated maintenance cost for the current fiscal year to the maintenance management plan creation means 14 to the maintenance management plan creating means 14, respectively. Supply and rewrite such information according to changes.

In the maintenance and management plan creating means 14 configured as described above, information as to whether or not the operation status of each device to be managed was at the management limit or a failure occurred at the date and time determined from the input unit 29. At times, when information such as under what circumstances and when recovery is performed is input, the maintenance management plan creation unit 14 causes the provisional setting unit 14 a and the selection unit 1
4b, the correction unit 14c, and the like operate based on the information.

The tentative setting unit 14a compares the tentative setting of the operation and maintenance plan with the tentative setting based on the input information, and if the information is in accordance with the tentative setting, the degree of importance of the device, the preventive maintenance of the device, and the post-maintenance. The selection of the presence is selected by the selection unit 14b. As a result of the selection, if the device is important, the device is extracted from the building facility database 21 and the information is supplied to the correction unit 14c. In the correction unit 14c, the deterioration characteristics of the device are analyzed in advance by the life prediction method, and the life prediction of the device is corrected from the supplied device information by various methods.

Based on the correction result of the equipment, a prediction method based on the maximum and minimum methods is added to the correction method of MTBF and MTTR, and the maintenance plan of the equipment is assembled by the reassembly processing unit 14d. After assembling the maintenance plan, it is corrected by the correction unit 14e, output to the output unit 30, supplied to the maintenance management plan control unit 11 via the Internet 12, and printed. Such an operation is performed daily, weekly, or monthly, and printed out as an arrangement book. The maintenance work performed in the order is evaluated based on the stored maintenance data, and the process proceeds to the next step.

The output unit 30 prints an operation monitoring work plan, a work plan, a daily patrol inspection work plan, a periodic inspection / measurement / maintenance work plan, a maintenance repair work plan, and the like. .

FIG. 3 shows the maintenance cost evaluator 2 described in FIG.
In FIG. 3, reference numeral 31 denotes a maintenance plan data input unit. In FIG. 3, a maintenance plan data input to the input unit 31 is converted into a maintenance cost calculation unit 32 by the equipment cost database 33. Calculate the maintenance cost based on the data. The cost calculated by the calculation unit 32 is calculated as a life cycle cost by the life cycle cost calculation unit 34, and then supplied to the maintenance management plan creation unit 14 via the output unit 35.

[0019]

As described above, according to the present invention,
By using the maintenance management plan creation means, maintenance can be performed according to the deterioration characteristics of the equipment, etc., and while improving the quality of the equipment, etc., the economic effect can be improved by performing it efficiently. The effect that can be improved is obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a block diagram showing details of a maintenance management plan creating unit.

FIG. 3 is a specific block configuration diagram of a maintenance cost evaluation unit.

[Explanation of symbols]

 11 ... Maintenance management plan control means 12 ... Internet 13 ... Equipment group of maintenance management center of each building facility 14d: Reassembly processing unit 14e ... Maintenance plan correction unit 15 ... Database 21 ... Building equipment database 22 ... Equipment operation database 23 ... Equipment maintenance database 24 ... Maintenance and maintenance long-term planning database 25 ... Schedule adjustment unit 26 ... Part 27: Plan check part 28: Maintenance cost evaluation part 29 ... Input part 30 ... Output part 31 ... Maintenance plan data input part 32 ... Maintenance cost calculation part 33 ... Equipment cost database 34 ... Life cycle cost calculation Part 35: Output part for life cycle cost, etc.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 9/00 321 H04Q 9/00 321E (72) Inventor Fushiro Matsuura 3-6 Irifune, Chuo-ku, Tokyo No. 3 Inside R.D.Mex Co., Ltd. (72) Inventor Tatsuro Fuse 3-6-3 Irifune, Chuo-ku, Tokyo Inside Nippon Mex Co., Ltd. (72) Inventor Takehiro Tanaka 5-chome, Jingumae, Shibuya-ku, Tokyo 13-14 F term (reference) 5H223 AA11 DD09 EE06 EE29 FF08 5K048 BA21 DC07 EB10 EB11 EB12 GB01 GB04 HA01 HA02

Claims (2)

[Claims] 1. A maintenance management center for a group of equipment of each building facility, a maintenance management plan controlling means for systematically maintaining a group of equipment of each building facility of the center via the Internet, and connected to the Internet; The maintenance and management plan supervision means via the Internet provides the building facilities of each facility, the operating status and maintenance of the equipment and the equipment, the operating status of the equipment, the inspection cycle, the failure interval of the equipment, the repair time of the equipment, the importance of the equipment. A maintenance management plan creation system for building equipment, comprising: maintenance management plan creation means for supplying equipment maintenance management plan information such as insignificant. 2. The maintenance plan creating means creates a maintenance plan using building equipment information in a building equipment database and temporarily sets a maintenance plan initial value relating to operation of the equipment. Department, equipment importance / non-important selection part that uses the building equipment database to select the degree of importance of equipment and select preventive maintenance and post-maintenance by equipment, and the operating status using equipment operation information from the equipment operation database Correction that corrects the numerical value of evaluation, average failure interval, and average time of repair, collects information generated in the maintenance process for each device and component, and analyzes the deterioration characteristics of each using a life prediction method Based on the results of the correction section and the correction section, a prediction method is added to the average failure interval and the average time of failure repair for each device / part, and reassembly of the maintenance plan is performed. In the reassembly processing unit performed using the information of the database, and in the reassembly in the reassembly processing unit,
Integrate the entire inspection route, inspection equipment and items,
A correction unit for storing the reassembled maintenance plan in the maintenance medium- and long-term plan database, sending the information corrected by the correction unit to the selection unit,
2. The system according to claim 1, wherein the information in the building equipment database is rewritten.