KR20210143518A - Safety management system - Google Patents

Abstract

The present invention provides a safety management system for controlling access by measuring a user location located for each floor in a building. The present invention displays the number of construction workers and the number of supervisors on a status board for each floor in the building and displays the total number of construction people on a construction map so that a manager can identify entire construction status through the status board.

Description

SAFETY MANAGEMENT SYSTEM

The present invention relates to a safety management system, and more particularly, to a safety management system for displaying the current status of construction site personnel on a current status board.

Prior Document Registration No. 10-1907964 Construction site safety management monitoring system and method, as shown in FIG. 1, uses a biometric reader 719 and a GIS server 721 to control the user's access, and the user's location monitor

Prior Document Publication No. 10-2016-0112048 A construction industry site safety management system using a beacon communicates with the smart phone 200 using the beacon 100 as shown in FIG. The location is remotely managed by the management server 300 .

Although the conventional safety management system measures the location of a user located in a construction site, there is a problem in that the location of a user located on each floor in a building cannot be measured.

Registration No. 10-1907964 Construction site safety management monitoring system and method Public No. 10-2016-0112048 Construction Industry Site Safety Management System Using Beacon

An object of the present invention is to provide a safety management system for controlling access by measuring the location of a user located on each floor in a building.

A safety helmet 20 equipped with an RFID tag 21 according to a preferred embodiment of the present invention; and a status means 30 for controlling access by reading information of the RFID tag 21 in the hard hat 20 through the RFID reader of the door 10, wherein the status means 30 includes a GPS means ( 60) to receive a GPS signal from the GPS signal to measure the location and to control access through the beacon means 50, which includes a terminal means 40 carried by the user, and communicates in short distance with the terminal means 40 installed in a building In the safety management system, the terminal means 40 receives the radio signal of the other terminal means 40, measures the radio signal strength, determines that it is located in a short distance, and transmits the determination information to the beacon means 50 It is characterized in that it is transmitted to the current status means (30) through the.

In addition, the terminal means 40, the auxiliary battery 42 for providing power to the terminal means (40); and a main battery (41) providing power to the terminal means (40) when the auxiliary battery (42) is detached.

The present invention can have the effect of displaying the number of construction site personnel and supervisors for each floor in the building on the current status board, and displaying the total status of the staff on the construction site map, so that the manager can understand the overall construction status through the status board.

1 is an exemplary view of a conventional construction site safety management monitoring system and method.
2 is an exemplary view of a construction industry site safety management system using a conventional beacon.
3 is an exemplary diagram of a safety management system.
4 is an exemplary diagram of a beacon positioning system, a GPS positioning system, and a terminal positioning system.
5 is an exemplary view showing the number of construction site personnel for each building floor.
6 is an exemplary diagram of a charging system.

Hereinafter, a safety management system according to a preferred embodiment of the present invention will be described in detail with reference to the drawings. Hereinafter, descriptions of previously known matters will be omitted or simplified in order to clarify the gist of the present invention.

3 is an exemplary diagram of a safety management system.

In addition to the access control system using the RFID system, the safety management system includes a beacon positioning system that performs short-range positioning using the beacon means 50, a GPS positioning system using a GPS signal, and a terminal positioning system that performs short-range positioning using a wireless signal. do.

Looking at the access control system using the RFID system, the safety management system reads the information of the RFID tag 21 mounted on the hard hat 20 through the RFID reader of the door 10 to control the access of the user wearing the hard hat 20 take control The status means 30 communicating with the RFID reader of the door 10 collects information of the RFID tag 21 mounted on the hard hat 20, and the user enters and exits corresponding to the collected identification information of the RFID tag 21. is displayed on the status board. The RFID tag 21 may be mounted on the seat belt instead of the safety helmet 20 . The RFID tag 21 is mounted on the tool worn by the user, and the status means 30 reads the information of the RFID tag 21 through the RFID reader to control the user's access.

The status means 30 displays the current status of the construction site personnel and the supervisor personnel on the current status board, and stores the attendance records of the construction site personnel and the supervisor personnel. The status means 30 may display a map of the construction site on the current status board, and may display the locations of construction site personnel and supervisors. In addition, the status means 30 displays the building layout on the status board, and displays the number of construction site personnel and supervisors for each floor.

4 is an exemplary diagram of a beacon positioning system, a GPS positioning system, and a terminal positioning system.

The safety management system includes a beacon positioning system (FIG. 4 (a)), a GPS positioning system (FIG. 4 (b)), and a terminal positioning system (FIG. 4 (c)) as a positioning system, and a beacon positioning system performs short-range positioning using a beacon means, the GPS positioning system performs remote positioning using a GPS signal, and the terminal positioning system performs short-range positioning with a wireless signal.

The beacon positioning system uses the beacon means 50 installed for each floor of the building by supplementing the GPS positioning system. The beacon positioning system identifies the location of the terminal means 40 by communicating with the user's terminal means 40 through the beacon means 50 installed for each floor of the building. The beacon means 50 receives the short-range wireless signal output by the terminal means 40, and communicates with the terminal means 40 belonging to a certain radius to identify the location of the terminal means (40). The beacon means 50 transmits the identified location of the terminal means 40 to the status means 30, and the status means 30 refers to the location of the terminal means 40 and the user who owns the terminal means 40 Determine the location of the building, and display the number of construction site personnel and supervisors on the status board for each floor of the building.

The GPS positioning system includes a terminal means 40 that receives the GPS signal of the GPS means 60 and identifies the location of the terminal means 40 by measuring a location located at a construction site based on the received GPS signal. The GPS positioning system identifies the location of the terminal means 40 by performing triangulation using a GPS signal, and transmits the identified location to the status means 30 . The status means 30 uses the location of the terminal means 40 to identify the user carrying the terminal means 40 and displays the construction site personnel and supervisor personnel on the status board.

The terminal positioning system measures the position of the terminal means 40 by using the terminal means 40 by supplementing the beacon positioning system. The terminal positioning system receives the wireless signal of the other terminal means 40, measures the wireless signal strength, determines that it is located in a short distance, and transmits the determination information to the status means 30 through the beacon means 50. The status means 30 collects the number of connection links of the terminal means 40 received through the beacon means 50, identifies the terminal means 40 carried by the user, and displays the number of construction site personnel and supervisor personnel on the status board for each floor of the building. to display

In the terminal positioning system, the terminal means 40 sets a preset oscillation frequency in a transceiver for transmitting and receiving a wireless signal, encodes data based on the identification code to transmit a wireless signal, and the other terminal means 40 is a terminal means By receiving the radio signal of (40) and measuring the radio signal strength, it is determined that the terminal means 40 is located in a short distance. The other terminal means 40 transmits that the terminal means 40 is located in the short distance to the status means 30 through the beacon means 50 when the terminal means 40 is located in a short distance. The status means 30 collects the number of connection links of the terminal means 40 received through the beacon means 50, identifies the terminal means 40 carried by the user, and displays the number of construction site personnel and supervisors on the status board for each floor of the building. to display

5 is an exemplary view showing the number of construction site personnel for each building floor.

The status means 30 displays the number of construction site personnel collected by the terminal means 40 for each floor of the building on the status board. By displaying the number of people at the construction site by floor of the building, the manager can grasp the overall status of the number of people working in the building.

6 is an exemplary diagram of a charging system.

The safety management system includes a charging means 70 for charging the main battery 41 and the auxiliary battery 42 mounted on the terminal means 40 . The charging means 70 charges the auxiliary battery 42 detachable from the terminal means 40 , and the auxiliary battery 42 is coupled to the terminal means 40 to supply power, and charges the main battery 41 . .

The terminal means 40 includes an auxiliary battery 42 for providing power to the terminal means 40; and a main battery 41 for providing power to the terminal means 40 when the auxiliary battery 42 is detached. The auxiliary battery 42 may be detachably attached to the terminal means 40 , and the main battery 41 supplies power to the terminal means 40 when the power supply is stopped during detachment. The power capacity of the main battery 41 may be smaller than the power capacity of the auxiliary battery 42 , and the main battery 41 is charged by the power source of the auxiliary battery 42 .

The charging means 70 for charging the auxiliary battery 42 uses a SMPS (Switching Mode Power Supply) to output a buck mode that outputs a voltage lower than the voltage of the commercial power, and a boost mode that outputs a voltage higher than the voltage of the commercial power. In operation, the auxiliary battery 42 is charged according to the charging voltage of the auxiliary battery 42 . For example, when the charging voltage of the auxiliary battery 42 is lower than the voltage of the commercial power source, the charging means 70 operates in the buck mode to charge the auxiliary battery 42, and the charging voltage of the auxiliary battery 42 is commercial If it is higher than the voltage of the power source, the charging means 70 operates in the boost mode to charge the auxiliary battery 42 . When the specifications of the auxiliary battery 42 used in the safety management system are various, and the charging voltage required by the auxiliary battery 42 is different for each specification, the charging means 70 is in the buck mode to match the charging voltage of the auxiliary battery 42 . Alternatively, the auxiliary battery 42 is charged by operating in the boost mode. The charging means 70 detects the output voltage of the auxiliary battery 42 before charging the auxiliary battery 42 to know the charging voltage of the auxiliary battery 42 .

The present invention is not limited to the specific preferred embodiments described above, and without departing from the gist of the present invention as claimed in the claims, anyone with ordinary skill in the art to which the invention pertains can implement various modifications Of course, such modifications are intended to be within the scope of the claims.

10: entrance door
20: hard hat
21: RFID tag
30: status means
40: terminal means
41: main battery
42: auxiliary battery
50: beacon means
60: GPS means
70: charging means

Claims (2)

A safety helmet 20 equipped with an RFID tag 21; and
and a status means 30 for controlling access by reading the information of the RFID tag 21 in the hard hat 20 through the RFID reader of the door 10,
The status means 30 is,
Including; receiving a GPS signal from the GPS means (60) to measure the location and the terminal means (40) carried by the user;
In the safety management system for controlling access through the beacon means (50) for short-distance communication with the terminal means (40) installed in a building,
The terminal means 40,
It is characterized in that by receiving the radio signal of the other terminal means (40), measuring the radio signal strength, determining that it is located in a short distance, and transmitting the determination information to the status means (30) through the beacon means (50) , safety management system. According to claim 1,
The terminal means 40,
an auxiliary battery 42 for providing power to the terminal means 40; and
and a main battery (41) providing power to the terminal means (40) when the auxiliary battery (42) is detached.

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