KR20090089142A - Risk control system for construction sites - Google Patents

Abstract

A risk control system on a construction site for preventing safety concerns is provided to prevent the generation of safety concerns quickly and control the arrangement and moving condition of operator by an administrator. A transmitter for a worker(10) for an operator sends position signal and accident signal. A location detection unit(20) receives position signal, and the accident signal and alarm call signal from the sender for operator and transmits the signal to a management server(40). The location detection unit receives the warning signal and precautionary signal from the management server and transmits the signal to a receiver for worker.

Description

Risk control system for construction sites

The present invention not only informs the manager when the worker at the construction site approaches the set danger area, but also informs the worker by various alarm means to prevent safety accidents, vibration sensor, manual emergency call button, etc. when an accident occurs to the worker. The present invention relates to a construction site safety management system that informs managers of workers' locations so that they can respond quickly to safety accidents.

Since it is difficult for a few managers to check every work situation at the construction site, there is a high incidence of workers' safety accidents in areas outside the manager's view.

Accordingly, Patent No. 0740144, "Construction site safety management system using RFID tag hard hat," was developed as a technology for preventing safety accidents at construction sites by tracking the location of workers. And it is characterized by the management of workers in the central server by attaching an RFID repeater at the construction site.

However, since the technology of Patent No. 0740144 focuses only on attendance and location tracking of workers, a construction site safety management system is required for more efficient safety accident prevention and quick response in case of an accident.

 The present invention provides a construction site safety management system that iii) the administrator can efficiently control the arrangement and movement of workers, ii) respond quickly to safety accidents, and iii) efficiently prevent the occurrence of safety accidents. Its purpose is to provide.

The above problem is to be solved by the following means.

1. Worker transmitter for transmitting the worker's location signal.

2. Transmitter for worker to detect abnormal vibration and send an accident signal.

3. Operator transmitter to send emergency call signal by manual operation.

4. A receiver for the operator that receives the warning signal and provides an alarm signal to the operator.

5. The management server that receives the position signal, accident signal, emergency call signal, warning signal and the like and provide it to the administrator in the form of signal information such as light, sound, vibration, display.

6. Installed in the danger zone, the position detector to act as a messenger of the worker transmitter and worker receiver and management server.

7. Radio engineering technology and system that can organically connect the worker transmitter, worker receiver, position sensor and management server.

According to the present invention has the following effects.

1. In a large construction site, a small number of managers can efficiently and accurately understand the number of worker placements and movements.

2. The manager can grasp the accident situation in real time and can take prompt relief.

3. Workers can call attention to dangerous areas with warning signals, etc., to prevent safety accidents.

The present invention is a worker transmitter 10 equipped with a vibration sensor; An operator receiver 30; Position sensor 20 is installed in the dangerous area of the construction site; And a management server 40; the position signal # 01; Accident signal # 02; Warning signal # 03; And controlled by an alarm signal # 04, the position signal # 01 is always transmitted when the worker transmitter 10 is in an on-mode and passes through the position sensor 20. Controlled to be transmitted to the management server 40, the accident signal (# 02) is sent so that the worker can detect when the vibration sensor of the worker transmitter 10 detects abnormal vibration, the position sensor 20 Is controlled to be transmitted to the management server 40, the warning signal (# 03) receives the position signal (# 01) within the set risk range of the position sensor 20 and transmits it to the management server (40). When the transmission is transmitted from the management server 40 is controlled to be transmitted to the worker receiver 30 via the position sensor 20, the alarm signal (# 04) is the worker receiver 30 is When the warning signal (# 03) is received is controlled to be sent so that the operator can detect, the management 40 is a construction site safety management system, characterized in that configured to convert the received position signal (# 01), accident signal (# 02) and warning signal (# 03) to the signal information (# 10) to provide to the manager To provide.

1 is a conceptual diagram of a construction site safety management system according to the present invention.

The worker transmitter 10 should basically be configured to transmit a position signal # 01 and an accident signal # 02. However, FIG. 1 conceptually illustrates the function of the worker transmitter 10 capable of transmitting an emergency call signal # 05 together.

In addition, FIG. 1 shows that the position sensor 20 receives the position signal # 01, the accident signal # 02, and the emergency call signal # 05 from the worker transmitter 10, and manages it again. And conceptually configured to receive a warning signal (# 03) and a preliminary warning signal (# 06) from the management server 40 and transmit it to the operator receiver (30).

The worker transmitter 10 and the worker receiver 30 may be integrally formed so that they can be easily carried, and the worker transmitter 10 and the receiver for the worker ( 30 may be attached to the operator's safety belt (waist belt, upper body belt, swing belt) as shown in FIG.

The worker transmitter 10 always transmits a position signal # 01 in an on-mode, and is equipped with a vibration sensor to detect an abnormal vibration caused by the worker's investment, fall, fall, etc. It is sending a signal (# 02). The manager can always check the position of the worker by the position signal # 01, and the manager can quickly respond to the accident situation by the accident signal # 02.

The accident signal (# 02) is to be detected by the accident when the abnormal vibration is detected above a certain level different from the usual and is sent for the operator to detect, light by the LED, sound by the speaker, vibration by the vibration motor Any one or more of the means may be sent for the operator to detect. However, when an actual accident does not occur, abnormal vibration is detected even when the worker undresses, for example, when the worker sets the transmitter 10 to the on-mode. Since # 02 may be transmitted, in this case, the worker may manually block the accident signal # 02 manually, thereby preventing unnecessary response of the worker.

In addition, the worker transmitter 10 is configured to allow the operator to manually send and block the emergency call signal (# 05), the emergency call signal (# 05) is the management server via the position sensor 20 Controlled to be transmitted to 40, the management server 40 may be configured to convert the received emergency call signal (# 05) to the signal information (# 10) to provide to the administrator.

This may cause an accident situation in which abnormal vibration does not occur, so that the worker transmitter 10 may be provided with a manual calling means to actively cope with various accident situations. Of course, the emergency call signal (# 05) can be used as a means for notifying the urgency of the accident situation even when the accident signal (# 02) is already transmitted.

The position sensor 20 is installed in a dangerous area of the construction site, and receives the position signal # 01 transmitted from the worker transmitter 10 and transmits it to the management server 40. On the other hand, when the location sensor 20 detects the location signal # 01 within the preset dangerous area range and transmits the location signal # 01 to the management server 40, the management server 40 sends a warning signal # 03. It is controlled to make a call. That is, when the worker enters the danger zone, the management server 40 detects the location signal # 01 and sends a warning signal # 03, and the warning signal # 03 is the location sensor 20 Is transmitted to the receiver 30 for the worker, and when the worker receiver 30 receives the warning signal (# 03), it is controlled to transmit an alarm signal (# 04) that can be detected by the worker, thereby causing a safety accident. It is to raise the worker's attention for prevention.

The position sensor 20 recognizes a signal (radio wave) transmitted from the worker transmitter 10 through the TDOA method, the RSSI method, etc., the worker transmitter 10, the worker receiver 30, and the management server 40. ) As a messenger. That is, the worker transmitter 10 sends the position signal # 01, the accident signal # 02, etc. to the management server 30 through the position sensor 20, the position sensor 20 in the management server 20 Through the warning signal (# 03) to the receiver 30 for the worker.

The alarm signal # 04 may also apply any one or more of light by LED, sound by a speaker, and vibration by a vibration motor. The alarm signal # 04 may be repeatedly controlled at regular time intervals, continuously provided until the worker leaves the danger zone, or continuously provided until the worker manually blocks it. have. 3 illustrates one embodiment of the position sensor 20.

On the other hand, construction site safety management system according to the present invention when the position sensor 20 receives the position signal (# 10) within the set dangerous periphery area range and transmits it to the management server 40 at one time the management The preliminary warning signal # 06 is transmitted from the server 40, and the preliminary warning signal # 06 is transmitted to the worker receiver 30 through the position sensor 20 and the worker receiver 30. ) May be controlled to transmit the preliminary alarm signal # 07 which can be detected by the operator when the preliminary warning signal # 06 is received. Rather than providing an alarm signal (# 04) only after the worker enters the danger zone, the preliminary alarm signal (# 07) is provided before the worker enters the danger zone to avoid the danger zone. It is because it is preferable. The preliminary alarm signal # 07 may also apply any one or more of light by LED, sound by a speaker, and vibration by a vibration motor.

The management server 40 is configured to receive the location signal (# 01), the accident signal (# 02) and the warning signal (# 03) and convert it into signal information (# 10) to provide to the administrator, the worker Even when the emergency call signal (# 05) is sent from the transmitter 10, it is controlled to receive it through the position sensor 20 and provide it to the administrator as signal information (# 10). The management server 40 may use a variety of electronic communication means such as PDA, mobile phone, PC of the field office, the signal information (# 10) can be confirmed through a monitor connected to the management server (40). .

4 shows an embodiment in which the signal information # 10 is displayed on a monitor connected to the management server 40. As shown in FIG. Workers around the danger zone and workers in the safety zone can be displayed in different shapes so that they can be displayed at a glance for analysis and analysis of the worker's deployment status.

The present invention can be realized by incorporating advanced radio wave engineering technologies such as RFID (Radio Frequency Identification) (UWB), Ultra Wide Band (UWB), and Zig-bee. In particular, the construction site is very variable, there are a lot of obstacles (forms, steel members, concrete, etc.) to use a wide range of frequencies so as not to interfere with the transmission and reception of various signals as described above.

Hereinafter, the present invention will be described according to the control step of the construction site safety management system and a flowchart showing the same.

5 is a flow chart for the control phase of the construction site safety management system. As shown in the figure, when the worker transmitter 10 is placed in an on-mode state, the system is operated while the position signal # 01 is transmitted. After that, when the worker approaches the hazardous area, the hazardous area operation model starts. If the worker is working in the general area, the general area operation model starts.

 6a and 6b is a flow chart for the control phase of the model in the construction site safety management system according to the present invention operating in a general area. In the event of an accident, there are two types of countermeasures.

The first is a case in which the vibration sensor of the worker transmitter 10 automatically detects abnormal vibration and automatically transmits a danger signal (# 02), hereinafter referred to as 'general area operation model 1' (see FIG. 6A).

In the general area operation model 1, when an abnormal vibration occurs due to the worker's investment, falling, falling, etc., the worker's transmitter 10 transmits an accident signal # 02, and the accident signal # 02 is a management server ( 40 is received in the form of signal information (# 10) in the form of sound, light, vibration, display screen to the administrator. When the manager detects the accident signal (# 02), it is possible to immediately identify the exact situation and the location of the worker by means of communication and take appropriate measures such as rescue of the worker.

However, even if an accident does not occur, abnormal vibration may occur. In this case, if an accident does not occur, but the accident signal (# 02) is sent, by blocking it manually can prevent unnecessary response of the administrator. Therefore, if the danger signal (# 02) is blocked, the manager can stop the relevant measures and continue the usual work.

The second is a case in which the operator directly sends an emergency call signal # 05 through the calling means of the worker transmitter 10, hereinafter referred to as 'general operation model 2' (see Fig. 6b).

Since accidents can be caused by various causes, abnormal vibrations may not be detected even when an accident occurs. In addition, even when an abnormal vibration is already detected and an accident signal # 02 is being transmitted, there is a need to emphasize the emergency of the accident. The general area operation model 2 is a situation processing model in this case. When the operator manually operates the calling means to transmit the emergency call signal # 05, the emergency call signal # 05 is transmitted from the management server 40. It is received and provided to the administrator as signal information (# 10) in the form of sound, light, vibration, display screen. When the manager detects the emergency call signal (# 05), it is possible to immediately determine the exact situation and the location of the worker by means of communication and take appropriate measures such as rescue of the worker.

However, when the emergency urgency of the accident is solved or the emergency call signal (# 05) is transmitted due to the operator's mistake of operation, it can be prevented by the administrator by manually blocking it. Therefore, if the emergency call signal (# 05) is blocked, the manager can stop the relevant action and continue the usual work.

7a and 7b is a flow chart for the control step of the model of the construction site safety management system operating in a hazardous area according to the present invention.

Even in a dangerous area, even if an accident does not occur, the management server 40 may alert the worker and the manager by sending a warning signal (# 03). In addition, even when the worker does not enter the danger zone, if the management is in the danger zone, the management server 40 may send a preliminary warning signal (# 06) to prevent the worker from entering the danger zone in advance.

When the accident occurred to the worker in the danger zone, the case where the accident signal (# 02) is transmitted by detecting the abnormal vibration is determined as 'hazardous zone operation model 1' (see Fig. 7a), and the operator's manual operation In this case, the emergency call signal (# 05) can be set as 'hazardous zone operation model 2' (see FIG. 7B) to prepare the action guide.

8 is a flow chart of the location of the accident occurred worker using the construction site safety management system according to the present invention. In the event of an accident, it is important to quickly identify the location of the worker and to respond quickly. In some cases, the location sensor (20) installed inside the location sensor (20) may collapse and the location sensor (20) installed in the room may not perform its role. Can be.

Therefore, it is preferable that the position sensor 20 is installed in a dangerous area indoors and an outdoor tower crane (T.C). In this case, the location sensor installed on the tower crane tracks the worker's position in the dangerous area overlooking the tower crane, such as the frame construction area, and the location sensor installed indoors in the dangerous area of the indoor slab You can do it. In addition, when an accident occurs, even if the location of the location sensor installed indoors is changed, the location of the worker who is in the accident can be tracked by using the location sensor attached to the tower crane.

1 is a conceptual diagram of a construction site safety management system according to the present invention.

2 illustrates an embodiment in which the worker transmitter and the worker receiver applied to the present invention are integrated.

Figure 3 applies an embodiment of the position sensor applied to the present invention.

4 illustrates an embodiment in which signal information is displayed on a monitor connected to a management server.

5 is a flow chart for the control phase of the construction site safety management system.

6A and 6B are flowcharts illustrating a control step of a model in which a construction site safety management system according to the present invention operates in a general area.

7a and 7b is a flow chart for the control step of the model of the construction site safety management system operating in a hazardous area according to the present invention.

8 is a flow chart of the location of the accident occurred worker using the construction site safety management system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: worker transmitter 20: position sensor

30: worker receiver 40: management server

# 01: Position signal # 02: Accident signal

# 03: Warning signal # 04: Alarm signal

# 05: emergency call signal # 06: preliminary warning signal

# 07: preliminary alarm signal

Claims (6)

Worker transmitter (10) equipped with a vibration sensor; An operator receiver 30; Position sensor 20 is installed in the dangerous area of the construction site; And a management server 40; Position signal # 01; Accident signal # 02; Warning signal # 03; And alarm signal (# 04), The position signal # 01 is always transmitted when the worker transmitter 10 is in an on-mode, and is controlled to be transmitted to the management server 40 through the position sensor 20, The accident signal (# 02) is transmitted so that the worker can detect when the vibration sensor of the worker transmitter 10 detects abnormal vibration, so that it is transmitted to the management server 40 through the position sensor 20 Controlled, The warning signal # 03 is transmitted from the management server 40 when the location sensor 20 receives the location signal # 01 within the set risk range and transmits the location signal # 01 to the management server 40. Controlled to be transmitted to the operator receiver 30 via a detector 20, The alarm signal # 04 is controlled to be transmitted so that the worker can detect when the worker receiver 30 receives the warning signal # 03, The management server 40 is a construction site, characterized in that configured to convert the received position signal (# 01), accident signal (# 02) and warning signal (# 03) to the signal information (# 10) to provide to the manager Safety management system. In claim 1, The worker transmitter 10 and the worker receiver 30 are integrally formed to be attached to the safety belt of the construction site, characterized in that the construction site safety management system. In claim 1, The worker transmitter 10 is configured to allow the worker to manually send and block the emergency call signal (# 05), The emergency call signal # 05 is controlled to be transmitted to the management server 40 via the position sensor 20, The management server 40 is a construction site safety management system, characterized in that configured to provide the administrator by converting the received emergency call signal (# 05) to the signal information (# 10). In claim 1, When the position sensor 20 receives the position signal # 10 within the set dangerous surrounding area range and transmits the position signal # 10 to the management server 40, the management server 40 reserves a warning signal # 06. ), The preliminary warning signal # 06 is transmitted to the operator receiver 30 via the position sensor 20, The worker receiver 30 is a construction site safety management system, characterized in that the control to send a preliminary alarm signal (# 07) that can be detected by the operator when the preliminary warning signal (# 06). In claim 1, The accident signal (# 02) and the alarm signal (# 04) is a construction site safety management system, characterized in that any one or more of the light by the LED, the sound by the speaker, the vibration by the vibration motor. The method according to any one of claims 1 to 5, The worker transmitter 10 is a construction site safety management system, characterized in that the worker is configured to manually block the accident signal (# 02).

Images