WO2017130378A1 - Project management system - Google Patents

Abstract

[Problem] To provide a project management system which can accurately determine the progress of a project by using position information about the workers, construction machines, etc., to detect detailed movements of a plurality of workers or construction machines and vouch for the content of a report. [Solution] This project management system is provided with: a position information acquiring means for acquiring position information about a subject to be managed; a work situation acquiring means for acquiring a work situation for each area; and a work management device which manages the progress of a project on the basis of the position information and the work situation, wherein an area map on which a work site is divided into a plurality of areas is recorded in the work management device, and the work management device calculates the progress of the project in each area on the basis of the position information about the subject to be managed, the work situation for each area, and the area map.

Description

Project management system

The present invention relates to a project management system that performs project management of work in a work site having a plurality of areas where a plurality of workers and / or a plurality of work machines perform work.

In large-scale construction sites such as factories and plants, many workers and many construction machines are operating. Conventionally, in such a construction project, the construction site is divided into a plurality of areas, and workers and construction machines are managed for each area.

Specifically, the project is divided into weekly or monthly units, and the results during this period are submitted to the area manager as a report. Then, by analyzing this report, it is judged whether there are excess or deficiency of workers and construction machinery in each area, and work to review the yield of workers and construction machinery assigned to each area in the next period.

US Patent Application Publication No. 2006/0193262

However, the detailed movement of many workers and construction machines could not be grasped only by the management by reports. Also, since there is no guarantee of the contents of the report, it is not possible to review the step correctly if the contents of the report are incorrect.

A method for managing information on a large number of workers and construction machines is disclosed in, for example, Patent Document 1 but only collects real-time information to determine the excess or shortage of workers and construction machines. I couldn't.

In the present invention, in view of such a current situation, using the positional information of workers and construction machines, etc., while grasping the detailed movements of many workers and construction machines and ensuring the contents of the report, the project The objective is to provide a project management system that can accurately grasp the progress of the project.

The present invention was invented to solve the problems in the prior art as described above, and the project management system of the present invention is
A project management system in a work site having a plurality of areas where a plurality of management objects exist,
Position information acquisition means for acquiring position information of the management target;
Work status acquisition means for acquiring a work status for each area;
A work management device for managing the progress of the project from the position information and work status;
With
In the work management device, an area map that divides the work site into the plurality of areas is recorded,
The work management device is configured to calculate the progress of the project in each area based on the location information of the management target, the work status for each area, and the area map. .

In such a project management system,
Project data having a project for each period is recorded in the work management device,
It is preferable to optimize the project in the next period for each area based on the progress of the project in the current period.

Furthermore, in such a project management system,
Comprising management object identification information acquisition means for acquiring the identification information of the management object;
The position information and the identification information can be acquired in association with each other.
In this case, it is preferable that the management target identification information acquisition unit is configured using short-range wireless communication.

In the project management system of the present invention,
It is preferable that the position information acquisition unit is configured using short-range wireless communication.
In the project management system of the present invention,
The management target can be at least one of an operator and a work machine.

According to the present invention, since the progress of a project can be managed based on position information of management targets such as workers and construction machines in addition to the work status for each area, the progress of the project can be accurately grasped. .

In addition, by optimizing the location of management targets based on location information, the number of appropriate workers and construction machines to be input in each area should be calculated and allocated in advance in order to achieve future planned progress. Is possible. Thereby, the risk that the construction schedule is delayed can be reduced.

FIG. 1 is a block diagram for explaining a configuration of a project management system in the present embodiment. FIG. 2 is a system configuration diagram of the project management system of FIG.

Hereinafter, embodiments (examples) of the present invention will be described in more detail with reference to the drawings.
FIG. 1 is a block diagram for explaining the configuration of the project management system in this embodiment, and FIG. 2 is a system configuration diagram of the project management system of FIG.

As shown in FIG. 1, the project management system 10 of this embodiment includes a position information acquisition unit 12 that acquires position information to be managed, a work status acquisition unit 14 that acquires a work status for each area, which will be described later, And a work management device 16 for managing the progress of the project from information and work status.

In this embodiment, the position information acquisition unit 12 includes a transmitter 18 and a receiver 20.
As shown in FIG. 2, the transmitters 18 are respectively owned by the workers 22 to be managed. In addition, the transmitter 18 includes a management object identification information acquisition unit 24 for identifying which worker 22 is owned by the transmitter 18. The management target identification information acquisition unit 24 can be configured by software that acquires individual identification information of the transmitter 18, worker (management target) identification information registered in the transmitter 18, and the like. By transmitting the worker (management object) identification information from the transmitter 18 to the receiver 20, the work management device 16 can acquire the worker (management object) identification information.

In the present embodiment, as shown in FIG. 2, the work site 26 is divided into a plurality of areas 26a, 26b, 26c, and 26d, and a plurality of receivers connected to the transmitter 18 are provided in each area. 20 is provided.

The position information acquisition means 12 in the present embodiment configured as described above has a difference in attenuation amount of signal strength when each receiver 20 receives a signal transmitted from the transmitter 18, and each signal from the transmitter 18. The position information can be acquired based on the difference in arrival times of signals transmitted to the receiver 20.

Such position information acquisition means 12 is, for example, an RFID (Radio Frequency Identifier), Wi-Fi (registered trademark), or Bluetooth (registered) in consideration of indoor / outdoor operation at a construction site such as a factory or a plant. (Trademark), ZigBee (registered trademark), etc. On the other hand, if the operation is performed only outdoors, other satellite positioning systems such as GPS (Global Positioning System) and GLONASS (Global Navigation Satellite System) can be used.

In the present embodiment, the plurality of receivers 20 are connected to each other to form a local network, and the receiver 20 and the work management apparatus 16 are connected by a network 28. In this specification, “local network” means a closed network such as a local area network (LAN) such as an intranet or a wireless sensor network, and a network using another communication standard is used. It doesn't matter. In addition, in this specification, “network” refers to a network including a wide area network (WAN) such as the Internet in addition to the local network described above.

The position information of the worker 22 acquired by the position information acquisition unit 12 is sent to the work management apparatus 16 in association with the management target identification information, and the work management apparatus 16 collates with the area map recorded in advance. It is determined which area 26a to 26d the worker 22 is in.

Also, the work management device 16 records the position information of the worker 22 acquired by the position information acquisition means 12 and the acquisition time of the position information in association with each other. Thus, by recording the positional information and the acquisition time in association with each other, the movement of the worker 22 can be grasped more accurately.

Also, the work status acquisition means 14 acquires the work status for a predetermined period for each of the areas 26a to 26d. The work status can be configured to input necessary information to the work management device 16 by the work status acquisition means 14 based on reports submitted to the managers of the areas 26a to 26d. As such work status acquisition means 14, for example, an input device such as a keyboard, a mouse, a touch panel, and an image scanner can be used.

Based on the position information of the worker 22 obtained in this way, the work status for each of the areas 26a to 26d, and the area map recorded in the work management device 16, the work management device 16 The progress of the projects 26a to 26d is calculated.

The calculation of the progress of the project can be performed as follows, for example.
First, a work schedule and a target output volume are set as project data and recorded in the work management device 16.
Next, in each area, the actual number of workers and the like are calculated from the position information of the worker 22, and the actual volume is calculated from the work status. Then, the target volume and the actual volume are compared, and the schedule delay, that is, the progress of the project is judged.

Note that the project progress is calculated in this way, and in areas that are behind the set schedule, the project is optimized so as to recover the delay in progress by increasing the amount of workers input.

On the other hand, if there is an area that is ahead of the set schedule, if necessary, in order to recover the delay of the entire work site, the operator can be accommodated from the advanced area to the area where the delay occurs. To optimize the project.

In the present embodiment, the work site 26 is divided into four areas 26a to 26d in order to simplify the description. However, the way of dividing the areas can be appropriately set according to the work site 26. .

For example, when the work site 26 is a construction site, for example, the area can be divided for each process of the construction work. By dividing in this way, it is easy to set the number of workers 22 necessary for one area, the required job type, the required number of days, etc., and the project can be easily managed.

For example, refinery plants consist of various equipment such as atmospheric distillation equipment, vacuum distillation equipment, LPG processing equipment, naphtha desulfurization equipment, light oil desulfurization equipment, fluid catalytic cracking equipment, utility equipment, off-site equipment, etc. Each area including each device can be classified as one process area. In addition, when one process area (for example, a process area including an atmospheric distillation apparatus) is a large area, the process area can be further divided and managed.

In general, by subdividing the work process, it becomes possible to manage the project more finely, and it is possible to prevent the worker 22 from remaining. In such a case, it is necessary to accurately grasp the work situation, but if the project management system 10 of this embodiment is used to divide the area for each work process, the project of each area can be easily and accurately determined. Progress can be managed and the cost of the entire work can be reduced.

Further, as described above, project data having a project for each period is stored in advance in the work management device 16. The project in the current period of the project data is compared with the calculated progress of the project, and the achievement status of the project in the current period is judged. The project is optimized in the next period according to the achievement status.

∙ As project data, we have a project that sets the amount of work (yield) in each area for each period. Then, the progress of the project is calculated for each area. For example, for an area where the number of workers 22 is insufficient, the number of workers 22 allocated to the next period is increased. The area can be optimized by reducing the number of workers 22 allocated in the next period.

In this embodiment, only the worker 22 is a management target. However, for example, a work machine such as a construction machine can be a management target.

The preferred embodiment of the present invention has been described above. However, the present invention is not limited to this. For example, in the above-described embodiment, the transmitter 18 and the receiver 20 have been described. As long as it does not deviate from the object of the present invention, it may be configured to be able to communicate with each other and to be able to transmit a message, voice, or the like from the work management device 16 to the transceiver owned by the worker 22. Various changes are possible.

DESCRIPTION OF SYMBOLS 10 Project management system 12 Position information acquisition means 14 Work condition acquisition means 16 Work management apparatus 18 Transmitter 20 Receiver 22 Worker 24 Management object identification information acquisition means 26 Work site 26a Area 26b Area 26c Area 26d Area 28 Network

Claims (6)

1. A project management system in a work site having a plurality of areas where a plurality of management objects exist,
   Position information acquisition means for acquiring position information of the management target;
   Work status acquisition means for acquiring a work status for each area;
   A work management device for managing the progress of the project from the position information and work status;
   With
   In the work management device, an area map that divides the work site into the plurality of areas is recorded,
   The work management device is configured to calculate the progress of the project in each area based on the location information of the management target, the work status for each area, and the area map. Project management system.
2. Project data having a project for each period is recorded in the work management device,
   The project management system according to claim 1, wherein the project is optimized in the next period for each area based on the progress of the project in the current period.
3. A management object identification information obtaining unit for obtaining the management object identification information;
   The project management system according to claim 1 or 2, wherein the position information and the identification information are acquired in association with each other.
4. 4. The project management system according to claim 3, wherein the management target identification information acquisition means is configured using short-range wireless communication.
5. The project management system according to any one of claims 1 to 4, wherein the position information acquisition means is configured using short-range wireless communication.
6. 6. The project management system according to claim 1, wherein the management target is at least one of an operator and a work machine.

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