JP3763770B2 - Construction machine information system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a construction machine information system that collects and manages various information related to construction machines.
[0002]
[Prior art]
Generally, construction machines at work sites are required to be thoroughly maintained and managed, and daily start-up inspections and regular (monthly and annual) inspections are performed. The results of legal inspections such as pre-start inspections, monthly inspections, annual inspections, etc., have been traditionally written by hand by the field workers (inspectors), and the inspection files created for each construction machine are managed. It was kept in offices. The management office gathers inspection information for each construction machine, grasps the state of each construction machine, and based on the collected inspection information, provides work instructions and safety precautions for each field worker. It was spoken verbally and in writing.
[0003]
However, as described above, collecting forms on which inspection information and operation information of each construction machine are collected takes time, and there is a problem that the efficiency of maintenance management is poor. Therefore, for example, as disclosed in Japanese Patent Laid-Open No. 6-330539, an attempt is made to acquire information on the construction machine from the construction machine automatically or in accordance with an operator's instruction by wireless communication.
[0004]
[Problems to be solved by the invention]
However, in such conventional construction machine maintenance management, construction machine information is only collected, so work instructions and safety precautions are communicated to all site workers based on the collected construction machine information. However, there was a problem that it still took time and the work efficiency at the site was poor.
[0005]
An object of the present invention is to provide a construction machine information system capable of centrally managing construction machine information by creating a database of various types of information related to each construction machine.
[0006]
[Means for Solving the Problems]
In order to solve such a problem, the present invention has the following features. In the following description of the means, the configuration corresponding to the embodiment is illustrated in parentheses. Reference numerals and the like are reference numerals for drawings to be described later.
[0007]
The invention according to claim 1
An information collection device (for example, the data collection device 2 in FIG. 1) that is mounted on the construction machine and collects various information related to the construction machine (for example, the construction machine 20 in FIG. 1), and the construction machine collected by the information collection device. A management device that manages information (for example, the management PC 3 in FIG. 1) and a portable communication terminal (for example, the portable PC 1 in FIG. 1) that is connected to the information collection device and that is owned by a field worker engaged in field work. A construction machine information system provided (for example, the construction machine information system 100 of FIG. 1),
The mobile communication terminal is
Input means for inputting safety inspection information of the construction machine (for example, the input unit 13 in FIG. 2);
Inspection information transmission means for transmitting the safety inspection information input by the input means to the information collection device (for example, transmitted via the construction machine I / F 14 in FIG. 2),
The information collecting device includes:
Measuring means for measuring a plurality of operating information indicating the operating state of the construction machine (for example, a group of sensors in the construction machine in FIG. 4);
Collection means (for example, CPU 21 in FIG. 4) for collecting operation information measured by the measurement means and safety inspection information of the construction machine transmitted from the mobile communication terminal;
Machine information transmission means (for example, wireless communication of FIG. 4) that transmits the operation information and safety inspection information of the construction machine collected by the collection means to the management apparatus via a network (for example, public line N of FIG. 1). A control unit 26),
The management device
Receiving means (for example, the communication control unit 34 in FIG. 5) for receiving construction machine operation information and safety inspection information transmitted from the information collecting device via a network;
Storage means (for example, ROM 35 in FIG. 5) for storing the operation information and safety inspection information of each construction machine received by the receiving means in association with each other;
Extraction means (for example, CPU 31 in FIG. 5) for extracting abnormality information of the construction machine from the operation information of the construction machine stored in the storage means;
Display means for displaying the abnormality information of the construction machine extracted by the extraction means and the safety inspection information of the construction machine stored in the storage means (for example, the display unit 32 in FIG. 5);
Instruction input means (for example, the input unit 33 in FIG. 5) for inputting a work instruction at a work site of the construction machine, which is determined based on the abnormality information and safety inspection information displayed on the display means;
Transmitting means (for example, the communication control unit 34 in FIG. 5) for transmitting the abnormality information and the input work instruction information to the mobile communication terminal via a network;
It is characterized by having.
[0008]
According to the first aspect of the present invention, the management device that manages the construction machine information receives and stores the operation information of each construction machine, and stores the abnormality information of the construction machine in the portable communication terminal owned by the field worker. By transmitting, unified management of construction machines becomes possible.
[0010]
In addition, the management device that manages construction machine information can grasp both the operation information and safety inspection information of each construction machine in real time, and also stores the information in association with each other, so that when the construction machine fails, etc. It is possible to grasp the tendency of the above, and it is possible to prevent a failure or the like. In addition, based on the work status of the site, construction machine operation information and safety inspection information, the management device sends data-based work instructions to the mobile communication terminal owned by the site worker. Field work and safety management can be performed more smoothly than in the case of simple verbal work instructions.
[0011]
The invention according to claim 2 is the invention according to claim 1,
The machine information transmitting means transmits operation information of the construction machine at a predetermined time and when necessary.
[0012]
According to the second aspect of the present invention, since the information collecting device mounted on the construction machine accumulates the operation information of the construction machine to a certain extent and transmits it to the management device at a predetermined time and when necessary, the communication network is efficiently used. Can be used.
[0013]
The invention according to claim 3 is the invention according to claim 1 or 2,
The network is a packet communication network.
[0014]
According to the third aspect of the present invention, even if the operation information and the safety inspection information of the construction machine having a small amount of information are transmitted many times a day, a large communication fee is not generated, and the running Cost can be saved.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
First, the configuration will be described.
[0016]
FIG. 1 is a diagram showing an overall configuration of a construction machine information system 100 to which the present invention is applied. As shown in FIG. 1, the construction machine information system 100 includes a portable PC 1, a data collection device 2 mounted on the construction machine 20, and a management PC 3 provided in the management office 30. The portable PC 1 and the data collection device 2 are connected by cable or wireless connection at a close distance, and the data collection device 2 and the management PC 3 are connected by a public line network (packet communication network) N via the base station 4.
[0017]
In FIG. 1, in order to simplify the description of the present embodiment, a case where there is one construction machine 20 managed by the management office 30 is shown, but this number is not particularly limited.
[0018]
FIG. 2 is a block diagram showing an internal configuration of the portable PC 1 to which the present invention is applied. A portable PC (Personal Computer) 1 is a PC owned by an inspector of the construction machine 20 and includes a CPU 11, a display unit 12, an input unit 13, a construction machine I / F unit 14, a ROM 15, and a RAM 16. 17 is connected.
[0019]
A CPU (Central Processing Unit) 11 develops a system program stored in the ROM 15 and a program designated from various application programs in a program storage area in the RAM 16, and inputs the input unit 13, construction machine I / O In accordance with the data input from the F unit 14, processing according to the program is executed, and the processing result is temporarily stored in the work area of the RAM 16 and displayed on the display unit 12. Further, the CPU 11 stores the processing result in the designated storage location in the ROM 15 based on the instruction signal input from the input unit 13.
[0020]
For example, when an on-site inspection of the construction machine 20 is designated from the main screen displayed on the display unit 12 of the portable PC 1 by a site worker who owns the portable PC 1, the CPU 11 stores the start-up inspection processing program stored in the ROM 15. Is read out, the start work inspection item table 151 (see FIG. 3) stored in the ROM 15 is read out, and the start work inspection screen is displayed on the display unit 12 (see FIG. 7) to prompt the field worker to input the inspection results.
[0021]
The display unit 12 has a display screen such as an LCD (Liquid Crystal Display) and performs a required display according to a display signal input from the CPU 11. FIG. 7 shows a screen display example on the display unit 12.
[0022]
The input unit 13 includes various keys such as character keys and numeric keys, and outputs key operation signals to the CPU 11. In addition, the input unit 13 includes a touch panel provided so as to cover the display unit 12, and detects and detects coordinates instructed by a coordinate reading principle such as an electromagnetic induction type, a magnetostriction type, and a pressure sensitive type. The coordinates are output to the CPU 11 as a position signal.
[0023]
The construction machine I / F unit 14 is an interface for inputting and outputting various data between the portable PC 1 and the data collection device 2 mounted on the construction machine. For example, a connection terminal conforming to the IEEE 1394 standard, USB (Universal Serial Bus) port, serial input / output terminals such as RS-232C terminal, parallel input / output terminals, SCSI interface, infrared communication device conforming to IrDA (Infrared Data Association) standard, etc., wired or wireless communication The data communication device 2 can be connected by means.
[0024]
A ROM (Read Only Memory) 15 stores various application programs corresponding to the portable PC 1, a start-up inspection processing program, a monthly inspection processing program, an annual inspection processing program, data processed by each processing program, and the like.
[0025]
Further, as shown in FIG. 3, the ROM 15 stores an inspection item table 151 in each inspection process. For example, as inspection items 1, 2, 3,... In the initial inspection of cranes, power shovels, etc., as shown in FIG. 3, “Crane inspection certificate, vehicle inspection, and driver's license”, respectively, ”,“ Operation of outriggers and jacks ”,“ Looseness and dropout of assembly bolts ”,“ Wear and damage of gears ”,“ Oil supply and maintenance conditions ”,“ Cooling water, lubricating oil ”,“ Operation of various instruments ” , “Operating states of various brakes and clutches”, etc.
[0026]
A RAM (Random Access Memory) 16 expands the processing program and various application programs executed by the CPU 11 in a program storage area (not shown) in the RAM 16 and executes an input instruction, input data, and the processing program. The processing results and the like generated at this time are temporarily stored in a work area (not shown). For example, when the inspection result of the construction machine 20 is input by the inspector, the RAM 16 temporarily stores these inspection data in the work area.
[0027]
FIG. 4 is a block diagram showing an internal configuration of the data processing apparatus 2 to which the present invention is applied. The data processing device 2 is a device mounted on the construction machine 20 and includes a CPU 21, an I / F unit 22 connected to the group of sensors in the construction machine, a ROM 23, a RAM 24, a portable PC I / F unit 25, and a wireless communication control unit. 26 and a time measuring unit 27, and each unit is connected by a bus 28.
[0028]
The CPU 21 develops a system program stored in the ROM 23 and a program designated from various application programs in a program storage area in the RAM 24, and the I / F unit 22 connected to the sensor group in the construction machine Then, processing according to the program is executed in accordance with data input via the portable PC I / F unit 25, and the processing result is temporarily stored in the work area of the RAM 24.
[0029]
For example, the CPU 21 collects construction machine data collection / transmission processing that collects the safety inspection data of the construction machine 20 transmitted from the portable PC 1 together with the operation data of the construction machine 20 and transmits it to the management PC 3 of the management office. (See FIG. 8). Here, the operation data of the construction machine is information on the hydraulic pressure, fuel remaining amount, hydraulic oil remaining amount, operation record (key switch ON / OFF), battery, engine speed, etc. of the construction machine.
[0030]
Further, when the CPU 21 receives work instruction data, safety precaution data, alarm data, etc. from the management PC 3, it immediately transmits these data to the portable PC 1 owned by the field worker.
[0031]
The I / F unit 22 is an interface for inputting measured operation data from a sensor group for measuring the operation state of the construction machine 20.
[0032]
The ROM 23 stores various application programs corresponding to the data processing device 2, an information collection processing program, data processed by each processing program, and the like. In addition, the ROM 23 stores time data (for example, every hour on the hour) at which the operation information of the construction machine 20 is collected.
[0033]
The RAM 24 expands the processing program and various application programs executed by the CPU 21 in a program storage area (not shown) in the RAM 24, and also shows input data, processing results generated when the processing program is executed, and the like. Temporarily store in the work area. The RAM 24 stores the operation data of the construction machine 20 from the sensor group in the construction machine via the I / F unit 22 until the operation data is instructed by the CPU 21. The CPU 21 stores the latest operation data. When retrieved, the old operational data is deleted, and new operational data starts to be imported. The identification information of the construction machine 20 such as the ID and manufacturing number of the construction machine 20 is stored.
[0034]
The portable PC I / F unit 25 is an interface for inputting / outputting various data between the data collection device 2 and the portable PC 1. For example, a connection terminal conforming to the IEEE 1394 standard, a USB port, an RS- A serial input / output terminal including a 232C terminal, a parallel input / output terminal, a SCSI interface, an infrared communication device conforming to the IrDA standard, and the like can be connected to the portable PC 1 by wired or wireless communication means.
[0035]
The wireless communication control unit 26 executes a packet communication protocol for the data collection device with the base station 4 through the antenna, and performs data communication or the like through the set communication channel.
[0036]
The time measuring unit 27 divides the reference clock to measure the time, and outputs the time measurement data to the CPU 21.
[0037]
FIG. 5 is a block diagram showing an internal configuration of the management PC 3 to which the present invention is applied. The management PC 3 is a PC installed in a management office 30 that has jurisdiction over the work area of the construction machine 20, and is composed of a CPU 31, a display unit 32, an input unit 33, a communication control unit 34, a ROM 35, and a RAM 36. 37 is connected. The management PC 3 is connected to the printer 3a via the cable C1.
[0038]
The CPU 31 reads various application programs stored in the ROM 35, expands them in a program storage area (not shown) in the RAM 36, executes various processes based on these programs, and temporarily stores the processing results in the work area in the RAM 36. The data is stored and displayed on the display unit 32. Further, the CPU 31 stores the processing result in the designated storage location in the ROM 35 based on the instruction signal input from the input unit 33.
[0039]
For example, the CPU 31 extracts abnormal information (alarm data) such as a defective part of the construction machine 20 and a fuel shortage from the machine operation data and safety inspection data of the construction machine 20 received from the data collection device 2, and the alarm data Along with today's safety precaution data and work instruction data input from the management PC 3 user, the construction machine information processing to be transmitted to the portable PC 1 owned by the inspector (construction machine operator) via the data collection device 2 is executed. (See FIG. 9). Further, in this construction machine information processing, the CPU 31 stores operation data, safety inspection data, and the like of the construction machine 20 in the ROM 35 in association with each other.
[0040]
The display unit 32 is configured by a CRT (Cathode Ray Tube), an LCD, or the like, and performs a required display according to a display signal input from the CPU 31.
[0041]
The input unit 33 includes a keyboard, a mouse, and the like, and outputs a key pressing signal and a mouse operation signal to the CPU 31.
[0042]
The communication control unit 34 is configured by a modem (MODEM / MODulator / DEModulator), a terminal adapter (Terminal Adapter), or the like, and performs control for communicating with an external device via a communication line such as a telephone line or an ISDN line. Do. In order to communicate with an external device such as a personal computer via a telephone line, the modem modulates the digital data processed by the CPU 31 into an analog signal suitable for the frequency band of the telephone line, and also via the telephone line. This is a device for demodulating the analog signal inputted in this way into a digital signal. The terminal adapter is a device that converts an existing interface into an interface corresponding to ISDN in order to communicate with an external device such as a personal computer via an ISDN line.
[0043]
The ROM 35 stores various application programs corresponding to the management PC 3, machine information data processing programs, data processed by the processing programs, and the like.
[0044]
For example, as shown in FIG. 6, the ROM 35 corresponds to the construction machine 20 operation data, safety inspection data, etc. received from the construction machine 20 in the construction machine information processing (see FIG. 9) executed for each construction machine. In addition, the construction machine information DB (Data Base) 351 is created by storing in the designated area in the ROM 35.
[0045]
The RAM 36 expands the processing program and various application programs executed by the CPU 31 in a program storage area (not shown) in the RAM 36, and also inputs instructions, input data, processing results generated when the processing program is executed, and the like. Is temporarily stored in a work area (not shown).
[0046]
The RAM 36 also provides reference values for operation information such as hydraulic pressure, fuel remaining amount, hydraulic oil remaining amount, battery remaining amount, engine speed, etc. as reference data for the construction machine to operate normally for each construction machine. The data shown is stored.
[0047]
In FIG. 1, a base station 4 executes a wireless packet communication protocol with a data collection device 2 mounted on a construction machine 20 existing in a communicable range from its own installation location, and also uses a public line network (packet). A packet communication protocol by wire or wireless is executed with the management PC 3 connected via the communication network N.
[0048]
Next, the operation of the present embodiment will be described.
First, safety inspection information transmission processing that is periodically executed in the portable PC 1 will be described. Below, the case where a start-up inspection is performed as a safety inspection will be described.
[0049]
When the starter inspection screen is selected with the touch pen from the main screen displayed on the display unit 12 of the portable PC 1 by the inspector before the start time, the CPU 11 displays the start inspection screen as shown in FIG. Encourage the inspector to start work and enter the inspection results.
[0050]
As the inspection items 1, 2, 3,... Shown in FIG. 7, the start inspection item shown in FIG. 3 corresponds, and for example, the inspector determines that the gear of the construction machine 20 needs to be replaced. When the inspection item 5 “Wear and damage of gear” is touched with the touch pen, the CPU 11 shifts to the inspection item 5 screen and prompts the inspector to input inspection data. Then, on the inspection item 5 screen, the inspector inputs that the gear change is necessary with the touch pen, and the input content (inspection item data) is temporarily stored in the RAM 16.
[0051]
When the inspection item data input for each inspection item is completed and the inspector touches “Send” on the start inspection screen, the CPU 11 receives the data mounted on the construction machine 20 via the construction machine I / F. The inspection item data temporarily stored in the RAM 16 is transmitted to the collecting device 2 together with the current time data.
[0052]
Next, referring to FIG. 8, construction machine data collection / transmission processing executed in the data collection device 2 is executed.
[0053]
When the time data input from the time measuring unit 27 is stored in the ROM 23 and a predetermined time (for example, every hour) at which the operation information is collected, or from the portable PC 1 via the portable PC I / F 25, When the safety inspection data is received (step S1), the CPU 21 takes in the latest operation data of the construction machine 20 stored in the RAM 24 (step S2).
[0054]
When the operation data of the construction machine 20 is captured, the CPU 21 transmits the operation data to the management PC 3 in the management office 30 together with the identification data of the construction machine 20 stored in the RAM 24 (step S3). The construction machine data collection / transmission process ends. When the safety inspection data of the construction machine 20 has been received from the portable PC 1 in step S1, the safety inspection data is also transmitted in addition to the operation data and the identification data of the construction machine.
[0055]
The data collection device 2 immediately transmits the abnormality information to the management PC 3 when the sensor detects any abnormality other than when the safety inspection information is received from the portable PC 1 or when the predetermined time comes. You may do it.
[0056]
Next, construction machine information processing executed in the management PC 3 installed in the management office 30 will be described with reference to FIG.
[0057]
First, when operation data of the construction machine is received from the data collection device 2 via the public line N (step T1), the CPU 31 follows the instruction signal that designates the storage destination in the ROM 35, which is input from the input unit 33. The received operation data is stored in the construction machine DB 351 in the ROM 35 (step T2).
[0058]
Next, the CPU 31 compares the operation data of the construction machine 20 stored in the ROM 35 with the reference data of the construction machine 20 stored in the RAM 36, and extracts operation data (alarm data) outside the predetermined reference range. (Step T3).
[0059]
Next, the CPU 31 displays a main screen on the display unit 32. When the alarm screen is selected as a screen indicating the machine operating status of the construction machine 20, the CPU 31 shifts to an alarm screen as shown in FIG. 10 and is extracted in step T3. The alarm data thus displayed is displayed as alarms 1, 2,... (Step T4). For example, when the fuel remaining amount and the battery remaining amount of the construction machine 20 are insufficient, the remaining amount of fuel as alarm 1 and the remaining amount of battery as alarm 2 are displayed on the alarm screen shown in FIG.
[0060]
When “Send” is selected on the alarm screen in FIG. 10, the CPU 31 sends the alarm data to the data collection device 2 together with the current time data (step T5), and ends the construction machine information processing. .
[0061]
When the safety inspection data is received together with the operation data of the construction machine 20 in step T1 at the time of the start inspection, etc., the CPU 31 first associates the operation data with the safety inspection data and designates the designated storage location in the ROM 35. The inspection items that are determined to be abnormal by the inspector from the received safety inspection data, that is, the defective portion or the portion that needs to be replaced are extracted. The operation data and safety check data stored in the ROM 35 are output to the printer 3a as necessary.
[0062]
Then, as shown in FIG. 10, the CPU 31 displays the alarm data extracted in step T3 on the display unit 32, and reads and displays the safety inspection data of the construction machine 20 stored in the ROM 35. In addition, input of work instructions, safety precautions, and the like based on the alarm data and safety inspection data is prompted, and transmission of these input data to the data collection device 2 is also prompted.
[0063]
The data collection device 2 that has received the work instruction data, the safety precaution data, and the alarm data from the management PC 3 immediately transmits these data to the portable PC 1 owned by the field worker.
[0064]
As described above, according to the construction machine information system 100 of the present embodiment, the management PC 3 collects both mechanical information (operation / inspection data) and human information (work instruction data) of a plurality of construction machines. Then, by creating a database of these construction machine information and enabling centralized management of construction machines, the management office can, for example, grasp the tendency at the time of failure of construction machines. On the other hand, it is possible to issue an appropriate work instruction and prevent failure in advance.
[0065]
In addition, the management office can inspect the construction workers' safety inspection data and the operation data of each construction machine that is received at a predetermined time (for example, every hour) in real time. And safety precautions can be promptly transmitted, and work efficiency and safety management can be improved.
[0066]
In addition, the work instructions and safety precautions that have been converted into data are transmitted to the portable PC 1 of the field worker and displayed on the display unit 12, so that the field worker can visually grasp the work contents and the management office side There is no misunderstanding such as saying or not saying between the operator and the field worker, and the field work can be performed smoothly.
[0067]
In addition, a public line N is used for data transmission of operation data, inspection data transmission, work instructions, and the like related to the construction machine 20, so that wireless devices such as a specific power-saving radio and a commercial radio whose transmission distance is limited. Unlike the case where the machine is used, data transmission is possible even when the construction machine 20 is located far away from the management office.
[0068]
In addition, since data communication between the data collection device 2 and the management PC 3 employs packet communication in units of data amount (packet amount), transmission of operation data or the like that does not have a large amount of data per day. No matter how many times you go, you won't be charged a lot of money and you can save on running costs.
[0069]
In addition, when the construction machine 20 is equipped with a production management system using a GPS (Global Positioning System) or the like, the construction machine 20 transmits the production data together with the operation data and the safety inspection data to the management PC 3. In the management PC 3, the operation data, the safety inspection data, and the completed data are associated with each other and stored in the construction machine information DB 351.
[0070]
【The invention's effect】
According to the construction machine information system of claim 1, the management device for managing the construction machine information receives and stores the operation information of each construction machine, and the portable communication owned by the field worker stores the abnormality information of the construction machine. By transmitting to the terminal, the construction machine can be centrally managed.
[0071]
In addition, the management device that manages construction machine information can grasp both the operation information and safety inspection information of each construction machine in real time, and also stores the information in association with each other, so that when the construction machine fails, etc. It is possible to grasp the tendency of the above, and it is possible to prevent a failure or the like. In addition, based on the construction machine operation information and safety inspection information, data management work instructions are sent from the management device to the mobile communication terminal owned by the field worker, so that conventional verbal work instructions Compared to the case, the field work can be performed smoothly.
[0072]
According to the construction machine information system of the second aspect, the information collection device mounted on the construction machine stores the operation information of the construction machine to some extent and transmits it to the management device at a predetermined time. Available to:
[0073]
According to the construction machine information system of the third aspect, a large amount of communication fee is not generated no matter how many times a day the operation information and safety inspection information of the construction machine having a small amount of information are transmitted. , Can save running cost.
[Brief description of the drawings]
FIG. 1 is a diagram showing an overall configuration of a construction machine information system 100 to which the present invention is applied.
FIG. 2 is a block diagram showing an internal configuration of a portable PC 1 to which the present invention is applied.
FIG. 3 is a diagram showing a start-up inspection item table 151 for a crane and a power shovel stored in a ROM 15 in the portable PC 1;
4 is a block diagram showing an internal configuration of a data collection device 2 mounted on the construction machine 20. FIG.
FIG. 5 is a block diagram showing an internal configuration of a management PC 3 installed in a management office 30 and a printer 3a.
6 is a diagram showing a construction machine information DB 351 stored in a ROM 35 in the management PC 3. FIG.
7 is a diagram showing a start-up inspection screen (FIG. 7A) and transmission data (FIG. 7B) in the portable PC 1. FIG.
FIG. 8 is a flowchart showing construction machine data collection / transmission processing executed in the data collection device 2;
FIG. 9 is a flowchart showing construction machine information processing executed in the management PC 3;
10 is a diagram showing an alarm screen showing alarm data for the construction machine 20. FIG.
[Explanation of symbols]
1 Mobile PC
2 Data collection device
3 Management PC
3a printer
4 base stations
11, 21, 31 CPU
12, 32 Display section
13, 33 Input section
14 I / F section for construction machinery
15, 23, 35 ROM
151 Start-up inspection item table
351 Construction Machinery DB
16, 24, 36 RAM
17, 28, 37 bus
22 I / F
25 I / F for mobile PC
26 Wireless communication control unit
27 Timekeeping Department
34 Communication control unit
20 Construction machinery
30 management office
100 Construction machine information system
C1 cable
N Public line network (packet communication network)

Claims (3)

An information collection device that is mounted on a construction machine and collects various information about the construction machine, a management device that manages construction machine information collected by the information collection device, and is connected to the information collection device to engage in field work A construction machine information system equipped with a mobile communication terminal owned by a field worker,
The mobile communication terminal is
Input means for inputting safety inspection information of the construction machine;
Inspection information transmission means for transmitting the safety inspection information input by the input means to the information collection device,
The information collecting device includes:
Measuring means for measuring a plurality of operation information indicating the operation state of the construction machine;
Operation information measured by the measuring means, and collecting means for collecting safety inspection information of the construction machine transmitted from the portable communication terminal,
Machine information transmission means for transmitting the operation information and safety inspection information of the construction machine collected by the collection means to the management device via a network,
The management device
Receiving means for receiving construction machine operation information and safety inspection information transmitted from the information collection device via a network;
Storage means for storing operation information and safety inspection information of each construction machine received by the receiving means in association with each other;
Extraction means for extracting abnormal information of the construction machine from the operation information of the construction machine stored in the storage means;
Anomaly information of the construction machine extracted by the extracting means, and a display means for displaying the safety inspection information of the construction machine stored in the storage means;
Instruction input means for inputting a work instruction at a work site of the construction machine, determined based on the abnormality information and safety inspection information displayed on the display means;
Transmitting means for transmitting the abnormality information and the input work instruction information to the mobile communication terminal via a network;
A construction machine information system comprising:   2. The construction machine information system according to claim 1, wherein the machine information transmission means transmits construction machine operation information at a predetermined time and when necessary.   The construction machine information system according to claim 1 or 2, wherein the network is a packet communication network.

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