KR20200004607A - Real Time Material and Process Managerment System using Tag Mapping Information and Signal Information - Google Patents

Abstract

The present invention relates to a system for managing materials and processes through distance measurement and location tracking in real time, each of which has a tag 100 having unique identification information; Receiving a material release command and material information of the released material, scans identification information of the tag 100 attached to the released material, maps the material information of the released material and the identification information of the scanned tag 100 ( a dispatcher terminal 200 for receiving the vehicle information to be shipped and receiving the vehicle information, and transmitting the mapping information and the vehicle information of the material and tag 100 to be released to the outside; The construction site scanner 500 that detects the identification information and the signal information of the tag 100 from the signal transmitted from the tag 100 attached to the material installed on the construction site where the material is constructed, and transmits the identification information and the signal information to the outside (500). ); A crane scanner 600 installed at a construction site crane and receiving the identification information and the signal strength transmitted from the tag 100 attached to the material and transmitting the received signal strength to the outside; And, according to the input production plan to the warehouse worker terminal 200 to send the material release order and material information of the material released, the mapping information and vehicle information received from the warehouse worker terminal 200, construction site scanner 500 Based on the identification information and the signal information of the tag 100 received from the tag and the identification information and signal information of the tag 100 received from the crane scanner 600 to determine the shipment time of the material, the current position and state of the material and save It characterized in that it comprises a; management server 700 for managing.

Description

Real time material and process management system using tag mapping and signal information

The present invention relates to a system capable of efficiently managing materials and processes in real time using mapping information and signal information (signal strength) of tags attached to materials.

When carrying out a large-scale project, it is divided into a number of tools, a large number of partners are involved, and the production plant is also increased, which causes difficulties in material release and inspection, quality and process management, and inventory management at the construction site.

In addition, if there are a large number of suppliers, there will be no materials to be installed immediately according to the management capacity of each supplier.

In addition, it takes two to three days to collect daily results for each tool, and by the time the on-site results are reflected in the process management, there is a problem that efficient process management is not possible because there is a time difference of three to four days.

That is, conventionally, the results are not collected in real time, and the process managers check the construction site and record the results, and then directly input these data and select the method of collecting the results. At the same time, it is impossible to reflect the results in real time, so that efficient process management is virtually impossible, and there is a problem in that air is unnecessarily delayed due to failure to provide materials in a timely manner.

[Preceding technical literature]

Patent Registration No. 10-1754328

Patent Publication No. 10-2018-0070119

In order to solve the above problems, the present invention is a real-time process from the release of materials to the completion of installation according to a production plan (process plan) input in advance without a separate verification work or data collection process for reflecting the results. It is automatically reflected and collected to enable efficient process management, supply necessary materials to the site in a timely manner, prevent early supply of unnecessary materials, and provide a new system that can prevent losses due to delays in supplying necessary materials immediately. It is an object of the present invention.

Technical composition of the present invention created to achieve the above object is as follows.

The present invention relates to a system for managing materials and processes through distance measurement and location tracking in real time. The tag 100 is detachably attached to materials, and each tag is provided with unique identification information; Receives a material release command and material information of the released material, scans the identification information of the tag 100 attached to the released material, and maps the material information of the released material and the identification information of the scanned tag 100. a dispatch worker terminal 200 for mapping the received vehicle information and receiving the released material and mapping information of the released material and the tag 100 and the vehicle information to the outside; It is installed at the construction site where the material is constructed and divides the construction site into a plurality of zones, and the identification information and the signal information of the tag 100 are transmitted from the signal transmitted from the tag 100 attached to the material. A plurality of construction site scanners 500 for detecting the intensity and transmitting the received identification information and the signal information (signal strength) to the outside; Installed on the crane of the construction site, the crane scanner 600 for detecting the identification information and signal information (signal strength) sent from the tag 100 attached to the material, and transmits the received identification information and signal information to the outside ); And, according to the production plan input in advance to the warehouse worker terminal 200, the material release command and the material information of the material released, and the mapping information and vehicle information received from the factory worker terminal 200, the construction site Based on the identification information and the signal information of the tag 100 received from the scanner 500 and the identification information and the signal information of the tag 100 received from the crane scanner 600, the shipment time of the material, the current of the material And a management server 700 that determines and stores and manages location and status.

Technical effects according to the configuration of the present invention are as follows.

First, the material release command and material information of the material released according to a pre-entered production plan are transmitted to the goods issuer terminal 200, and accordingly the material information of the material released and the tag attached to the material at the same time the material release is made. By mapping the identification information of (100), it is possible to automatically check the current position and state of the material only by the identification information of the tag 100, and to store and manage these results in the management server 700 in real time.

Second, through the crane scanner 600 installed in the crane of the construction site through the algorithm reflecting the identification information, signal information (signal strength) and time of the tag 100 (state, waiting, installation start, installation completion) ) And store the result in the management server 700 in real time.

Third, the motion detection sensor is provided in the tag 100 to transmit a signal only when the movement of the tag 100 is detected, so that the construction site scanner 500 or the crane scanner 600 is provided to the tag 100. And by enabling the signal information (signal strength) can be detected, tags 100 without position fluctuations can be detected unnecessarily, thereby causing confusion or reducing the efficiency of the system.

Fourth, the results reflected in real time by linking with BIM (Building Information Modeling) program can be directly confirmed in a two-dimensional or three-dimensional graphic screen.

1 illustrates a technique implemented by a specific embodiment of the present invention.
2 exemplarily shows a productivity data analysis screen made in the management server 700.
3 exemplarily shows a screen of updating performance based on BIM.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A specific embodiment of the present invention relates to a system for managing materials and processes through distance measurement and location tracking in real time as shown in FIG. 1, the factory worker terminal 200 is provided with an NFC scanner function, construction site scanner The 500 and the crane scanner 600 is provided with a BLE scanner function, the factory worker terminal 200, the construction site scanner 500, the crane scanner 600, and the inspection worker terminal 300 via the LoRa base station. After the LTE network is shown to be connected to the management server 700, if it can perform the equivalent function may be replaced by other methods currently commercially available.

The tag 100 is detachably attached to the material, and each of the tags 100 is provided with unique identification information so that the tags 100 can be distinguished from each other.

In addition, the tag 100 has a built-in motion sensor such as a level or accelerometer, and has a feature that transmits a signal containing identification information to the outside only when the movement of the tag 100 is detected through such a motion sensor.

Therefore, the tag 100 should be provided with a motion detection sensor, a control module, a signal transmitting module, a power source, etc. to implement such a feature.

In addition, the tag 100 transmits a signal that the NFC scanner or the BLE scanner can receive.

The dispatch worker terminal 200 receives a material release command and material information of the released material from the management server 700 and performs a function of informing the release worker.

In addition, the factory worker terminal 200 is provided with an NFC scanner function that can be recognized by scanning the identification information of the tag 100 attached to the material shipped, and the material information and the scanned tag transmitted from the management server 700 Mapping identification information of 100 generates mapping information. In addition, the dispatch worker can input the vehicle information (including the vehicle number) that is released through the dispatch worker terminal 200, the vehicle information may be directly input, the vehicle including the vehicle number through the image taken by the camera The manner of obtaining the information may be applied.

The factory worker terminal 200 transmits the mapping information and the vehicle information to the management server 700.

The vehicle GPS 250 may transmit GPS information of a moving vehicle installed in a vehicle loaded with materials to the management server 700 in real time, and the management server 700 may transmit the GPS transmitted by the vehicle GPS 250. Using the information, the current location of the material being shipped and moving can be checked at any time, and the estimated estimated arrival time of the released material to be received at the inspection center can be transmitted to the inspection worker terminal 300 together with the material information.

Thus, the inspector may use this information to prepare for the inspection of the material.

The inspection center scanner 400 is installed in the inspection hall where the material is received, and can detect the identification information and the signal information (signal strength) of the tag 100 from the signal transmitted from the tag 100 attached to the material. BLE scanner function is provided, and transmits the received identification information and signal information to the management server 700.

The management server 700 determines the receipt time of the material corresponding to the identification information and the mapped material information of the tag 100 on the basis of the identification information and the signal information of the tag 100 transmitted from the inspection center scanner 400 Save and send the receipt time of the material to the inspection worker terminal (300).

Therefore, the inspection worker can check the fact that the material is received and the receipt time in real time even without checking the material at the entrance of the inspection hall.

The construction site scanner 500 is installed so as to be properly distributed in the construction site where the material is constructed to partition the construction site into a plurality of zones.

Construction site scanner 500 is equipped with a BLE scanner function, and detects the identification information and signal information of the tag 100 from the signal sent from the tag 100 attached to the material, and manages the received identification information and signal information Send to server 700.

The management server 700 determines the location of the material corresponding to the identification information and the material information mapped from the identification information and the signal information of the tag 100. That is, the installation location for each construction site scanner 500 is stored in advance in the management server 700, and whether any of the construction site scanner 500 has detected the identification information of the tag 100 and the signal information This makes it easy to determine the current location of the material.

The management server 700 grasps the current position of the material corresponding to the identification information of the tag 100 and the material information mapped from the identification information and the signal information of the tag 100 received from the construction site scanner 500 in real time. When the identification information and the signal information of the tag 100 transmitted by the construction site scanner 500 are disconnected because the movement of the tag 100 is not detected for more than a preset time, the corresponding material at the last identified position Recognizes that is in the "standby" state.

In other words, the tag 100 transmits a signal to the outside only when there is a movement in conjunction with a motion detection sensor. When the movement of the tag 100 stops, the construction site scanner 500 recognizes the tag 100. And the identification information and the signal information of the tag 100 transmitted by the construction site scanner 500 are cut off. In this case, the material is recognized as staying in the "waiting" state at the last position identified immediately before. do.

The crane scanner 600 is installed on the crane of the construction site and moves together, the BLE scanner function is provided to receive the identification information and signal information (signal strength) transmitted from the tag 100 attached to the material, and received the identification The information and signal information is transmitted to the management server 700.

If the signal information of the tag 100 received from the crane scanner 600 is more than a preset value, the management server 700 is towed by the crane material corresponding to the identification information and the material information mapped to the tag 100 By judging, the status of the material is recognized as "installation start".

In addition, after the management server 700 determines that the signal information of the tag 100 received from the crane scanner 600 is a preset value, (1) a preset time elapses, or (2) a preset value When the signal information of the tag 100 received from the crane scanner 600 falls below a preset value after a lapse of time, the state of the material corresponding to the identification information of the tag 100 and the material information mapped is "installed." Complete ".

As such, the management server 700 transmits the material release command and the material information of the released material to the goods release worker terminal 200 according to the production plan input in advance, the mapping information and the vehicle information received from the goods release worker terminal 200. Based on the identification information and the signal information of the tag 100 received from the construction site scanner 500 and the identification information and the signal information of the tag 100 received from the crane scanner 600, the shipment time of the material and the current of the material The location (including when moving to a vehicle) and the status (waiting, installation start, installation completion) are determined and stored.

Figure 2 shows an example of the productivity data analysis screen made in the management server 700, the management server 700 is calculated by the hour, date, weekly, monthly by the installation completion results compared to the pre-input production plan Can be stored and presented as a chart and managed.

Figure 3 shows a screen updated the results based on BIM by way of example, the management server 700 is a two-dimensional or three-dimensional graphic screen of the installation completion results compared to the production plan previously input through the BIM (Building Information Modeling) program Can be provided as

As described above, specific embodiments of the present invention have been described with reference to the accompanying drawings, but the protection scope of the present invention is not necessarily limited to these embodiments, and various design changes and notifications are made without departing from the technical spirit of the present invention. In the case of addition or deletion of technology, and simple numerical limitations, it is obvious that the scope of the present invention is included.

100: tag
200: factory worker terminal
250: Vehicle GPS
300: inspection worker terminal
400: inspection center scanner
500: construction site scanner
600: crane scanner
700: management server (S-PMIS)

Claims (10)

Regarding a system for managing materials and processes through distance measurement and location tracking in real time,
Removably attached to the material, each tag 100 is given a unique identification information;
Receives a material release command and material information of the released material, scans the identification information of the tag 100 attached to the released material, and maps the material information of the released material and the identification information of the scanned tag 100 a dispatch worker terminal 200 for mapping the received vehicle information and receiving the released material and mapping information and vehicle information of the released material and the tag 100 to the outside;
It is installed at the construction site where the material is constructed and divides the construction site into a plurality of zones, and the identification information and the signal information of the tag 100 are transmitted from the signal transmitted from the tag 100 attached to the material. A plurality of construction site scanners 500 for detecting the intensity and transmitting the received identification information and the signal information (signal strength) to the outside;
Installed on the crane of the construction site, the crane scanner 600 for detecting the identification information and signal information (signal strength) sent from the tag 100 attached to the material, and transmits the received identification information and signal information to the outside ); And,
According to a production plan input in advance, the material dispatch command and the material information of the released material are sent to the dispatch worker terminal 200, mapping information and vehicle information received from the dispatch worker terminal 200, and the construction site scanner ( 500 based on the identification information and the signal information of the tag 100 received from the tag and the identification information and the signal information of the tag 100 received from the crane scanner 600, the shipment time of the material, the current position of the material and A management server 700 for determining and storing status;
Real-time material and process management system using the mapping information and signal information of the tag, characterized in that comprises a. In claim 1,
The tag 100,
Real-time material and process management system using a mapping information and signal information of the tag, characterized in that the built-in motion sensor transmits a signal containing the identification information to the outside only when the movement of the tag 100 is detected. In claim 2,
It is installed in the inspection hall where the material is received, detects the identification information and the signal strength of the tag 100 from the signal sent from the tag 100 attached to the material, and manages the received identification information and signal information Inspection office scanner 400 for transmitting to the server 700;
More is included,
The management server 700,
Based on the identification information and the signal information of the tag 100 transmitted from the inspection center scanner 400 to determine and store the receipt time of the material corresponding to the identification information and the material information mapped to the tag 100, Real-time materials and process management system using the mapping information and signal information of the tag, characterized in that for transmitting the receipt time of the material to the inspection worker terminal (300). In claim 2,
The management server 700,
From the identification information and signal information of the tag 100 received from the construction site scanner 500 to grasp the current position of the material corresponding to the identification information of the tag 100 and the material information mapped in real time, If the movement of the tag 100 is not detected for more than a time, and the identification information and the signal information of the tag 100 transmitted by the construction site scanner 500 are disconnected, the current position of the last material identified immediately before Real-time material and process management system using the mapping information and the signal information of the tag, characterized in that the state of the material is "wait". In claim 2,
The management server 700,
When the signal information of the tag 100 received from the crane scanner 600 is greater than or equal to a preset value, it is determined that the material corresponding to the identification information of the tag 100 and the material information mapped is towed by the crane. Real-time material and process management system using the mapping information and the signal information of the tag, characterized in that the state of the material is recognized as "installation start". In claim 5,
The management server 700,
After the signal information of the tag 100 received from the crane scanner 600 is determined to be a preset value,
(1) the preset time has elapsed, or
(2) when the signal information of the tag 100 received from the crane scanner 600 falls below a preset value after a preset time elapses,
Real-time material and process management system using the mapping information and the signal information of the tag, characterized in that the state of the material corresponding to the identification information and the material information mapped to the tag (100) is installed. In claim 3,
A vehicle GPS 250 which transmits GPS information of a moving vehicle installed on a vehicle loaded with materials to be shipped to the management server 700;
More is included,
The management server 700,
By using the GPS information transmitted by the vehicle GPS 250, the estimated arrival time for the material to be received at the inspection center is transmitted to the inspection worker terminal 300 using the mapping information and the signal information of the tag. Real time material and process management system. In claim 6,
The management server 700,
Real-time material and process management system using the mapping information and signal information of the tag, characterized in that to calculate and store the installation completion results compared to the pre-input production plan by hour, date, weekly, monthly. In claim 8,
The management server 700,
Real-time material and process management system using the mapping information and signal information of the tag, characterized in that it provides a graphical display of the installation completion results compared to the production plan input in advance through the BIM (Building Information Modeling) program. The method according to any one of claims 1 to 9,
The factory worker terminal 200 is provided with an NFC scan function,
The construction site scanner 500 and the crane scanner 600 is a BLE scanner is used,
The factory worker terminal 200, the construction site scanner 500, the crane scanner 600, and the inspection worker terminal 300 is connected to the management server 700 via the LTE network via the LoRa base station. Real-time material and process management system using the mapping information and signal information of the tag, characterized in that.

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