CN211569932U - Tower crane safety monitoring system using 5G technology - Google Patents

Abstract

The utility model relates to an use tower crane safety monitoring system of 5G technique, arrange on-the-spot basic station node in the tower crane region, the coordinator is arranged to the transmission range of on-the-spot basic station node, 5G wireless network is constituteed with the coordinator to on-the-spot basic station node, install the wireless corner sensor of 5G radio frequency on the tower crane, 5G radio frequency wireless promotes altitude sensor, the wireless weighing transducer of 5G radio frequency, the wireless range sensor of 5G radio frequency, the wireless wind speed sensor of 5G radio frequency, the detected signal transmission that the sensor recorded receives 5G wireless network, the coordinator receives and packs the signal data that the on-the-spot basic station node sent, rethread wired or wireless mode is with a series of detected signal transmission to surveillance center. Has the advantages that: the method can continuously detect for 24 hours without interruption, the signals are not influenced by the construction environment, accurate and continuous signals are provided for early warning, forecasting, monitoring and the like of the working condition and state of the tower crane, and the production safety is ensured.

Description

Tower crane safety monitoring system using 5G technology

Technical Field

The utility model discloses a tower crane operation factor detects technical field, relates to tower crane safety monitoring system.

Background

In the building enterprise, high-rise, super high-rise building is more and more, and the factor that influences tower crane safe operation mainly has rotation angle, lifting height, lifting load, hoist and mount range, slope, wind speed etc. if can be in real time incessant carry out effective monitoring to above factor, the tower crane safe operation just can guarantee. The traditional monitoring mode can not meet the requirements of detection on moving objects and open-air environment tower cranes, and is lack of effective means and equipment when the aspects of continuous detection, real-time early warning and the like are needed. If the detection is not timely carried out, equipment and personnel in the construction process are possibly dangerous.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is for to multielement continuous measurement, real time monitoring tower crane operating mode, provide a tower crane safety monitoring system who uses 5G technique.

The technical scheme of the utility model: a tower crane safety monitoring system using 5G technology arranges site base station nodes in a tower crane area, arranges a coordinator in the transmitting range of the site base station nodes, the site base station nodes and the coordinator form a 5G wireless network, A5G radio frequency wireless corner sensor, a 5G radio frequency wireless lifting height sensor, a 5G radio frequency wireless weight sensor, a 5G radio frequency wireless amplitude sensor and a 5G radio frequency wireless wind speed sensor are arranged on a tower crane, detection signals measured by the 5G radio frequency wireless corner sensor, the 5G radio frequency wireless lifting height sensor, the 5G radio frequency wireless weight sensor, the 5G radio frequency wireless amplitude sensor and the 5G radio frequency wireless wind speed sensor are transmitted to a 5G wireless network, a coordinator receives and packs signal data sent by site base station nodes, and then a series of detection signals are sent to a monitoring center in a wired or wireless mode.

Further, the method comprises the following steps: and the data received by the monitoring center is analyzed to send out a normal or abnormal signal, and the abnormal signal is sent to the mobile phone app through the mobile phone network.

The 5G radio frequency wireless corner sensor, the 5G radio frequency wireless lifting height sensor, the 5G radio frequency wireless weight sensor, the 5G radio frequency wireless amplitude sensor and the 5G radio frequency wireless wind speed sensor all adopt a micro battery integrated power supply structure.

The utility model has the advantages that: the invention adopts a wireless sensor without power supply to continuously detect the rotation angle, the lifting height, the lifting load, the lifting amplitude, the inclination, the wind speed and the like of the tower crane in the operation process for 24 hours, the detection signal is wirelessly transmitted to a receiving device of a safe area of a construction site through a 5G technology (without a communication cable), and then the series of detection signals are continuously transmitted to a monitoring center through a wired or wireless mode, so that the effective monitoring and alarming are realized, meanwhile, the monitoring information and the alarming information can be pushed to related management and maintenance personnel through mobile phone app for timely and effective management and control, the method can continuously detect, the signal is not influenced by the construction environment (open air, messy, high temperature, strong sunshine, dust, overcast and rainy weather and the like), and the accurate and continuous signal is provided for the early warning and forecast of the working condition and the state, Monitoring, generation of a fixed maintenance plan and the like, and ensuring production safety. Wireless high-strength anti-interference encrypted signal transmission based on the Internet of things technology and the 5G wireless signal transmission technology has a good transmission effect.

Drawings

Fig. 1 is a schematic view of the present invention;

the system comprises a 1-5G radio frequency wireless corner sensor, a 2-5G radio frequency wireless lifting height sensor, a 3-5G radio frequency wireless weight sensor, a 4-5G radio frequency wireless amplitude sensor, a 5-5G radio frequency wireless wind speed sensor, a 6-site base station node, a 7-coordinator, an 8-embedded gateway, a 9-bus, a 10-PC, a 11-mobile phone app and a 12-5G wireless network.

Detailed Description

Referring to fig. 1, a tower crane safety monitoring system using 5G technology, a field base station node 6 is arranged in a tower crane area, a coordinator 7 is arranged in a transmitting range of the field base station node 6, the field base station node 6 and the coordinator 7 form a 5G wireless network 12, a 5G radio frequency wireless corner sensor 1, a 5G radio frequency wireless lifting height sensor 2, a 5G radio frequency wireless weight sensor 3, a 5G radio frequency wireless amplitude sensor 4, a 5G radio frequency wireless wind speed sensor 5 are mounted on a tower crane, detection signals measured by the 5G radio frequency wireless corner sensor 1, the 5G radio frequency wireless lifting height sensor 2, the 5G radio frequency wireless weight sensor 3, the 5G radio frequency wireless amplitude sensor 4 and the 5G radio frequency wireless wind speed sensor 5 are transmitted to the 5G wireless network 12, the coordinator 7 receives and packs signal data sent by the field base station node 6, and then a series of detection signals are sent to a monitoring center in a wired or wireless mode.

Further, the data received by the monitoring center is analyzed to send out a normal or abnormal signal, and the abnormal signal is sent to the mobile phone app 11 through the mobile phone network.

The signal transmission principle is as follows: the method comprises the steps that a 5G radio frequency wireless corner sensor 1, a 5G radio frequency wireless lifting height sensor 2, a 5G radio frequency wireless weight sensor 3, a 5G radio frequency wireless amplitude sensor 4 and a 5G radio frequency wireless wind speed sensor 5 are used for collecting relevant signals and sending the relevant signals through a 5G wireless radio frequency chip, a field base station node 6 of a 5G wireless network 12 receives and forwards the signals, a coordinator 7 receives and packages the signals and transmits the signals, and finally various signals are transmitted to analysis, routing inspection, alarm and other systems of a database and a display platform through an embedded gateway 8 and a bus 9 to analyze, screen and utilize data.

Use of: according to the actual condition and the equipment characteristics of the operation of the building tower crane, a safety monitoring and wireless sensor arrangement scheme of the tower crane is formulated. A general 5G radio frequency wireless corner sensor is arranged on a tower crane rotating seat, a 5G radio frequency wireless lifting height sensor is arranged on a trolley, a 5G radio frequency wireless weight sensor 3 is arranged at a fixed pulley of the trolley, a 5G radio frequency wireless amplitude sensor 4 is arranged at the tail end of a tower crane boom, and a 5G radio frequency wireless wind speed sensor is arranged at the top end of the tower crane. All kinds of sensors adopt a micro-battery integrated power supply structure, and the service life of the sensors is not less than 10 years under severe working conditions. And networking and communicating and debugging the site base station node 6, the coordinator 7 and each sensor. During normal work, the detection signal is continuously sent to the monitoring center, so that effective monitoring and alarming are realized, and meanwhile, monitoring information and alarming information of the mobile phone app can be pushed to relevant management and maintenance personnel through the mobile phone app, so that timely and effective management and control are performed.

Claims (3)

1. The utility model provides an use tower crane safety monitoring system of 5G technique which characterized by: a site base station node (6) is arranged in a tower crane area, a coordinator (7) is arranged in the transmitting range of the site base station node (6), the site base station node (6) and the coordinator (7) form a 5G wireless network (12), a 5G radio frequency wireless corner sensor (1), a 5G radio frequency wireless lifting height sensor (2), a 5G radio frequency wireless weight sensor (3), a 5G radio frequency wireless amplitude sensor (4) and a 5G radio frequency wireless wind speed sensor (5) are installed on a tower crane, detection signals measured by the 5G radio frequency wireless corner sensor (1), the 5G radio frequency wireless lifting height sensor (2), the 5G radio frequency wireless weight sensor (3), the 5G radio frequency wireless amplitude sensor (4) and the 5G radio frequency wireless wind speed sensor (5) are transmitted to the 5G wireless network (12), and the coordinator (7) receives and packs signal data transmitted by the site base station node (6), and then a series of detection signals are sent to a monitoring center in a wired or wireless mode.

2. The tower crane safety monitoring system using the 5G technology as claimed in claim 1, wherein: the data received by the monitoring center is analyzed to send out a normal or abnormal signal, the abnormal signal is sent to the mobile phone app (11) through the mobile phone network, and the mobile phone app (11) sends out an alarm.

3. The tower crane safety monitoring system using the 5G technology as claimed in claim 1, wherein: the 5G radio frequency wireless corner sensor (1), the 5G radio frequency wireless lifting height sensor (2), the 5G radio frequency wireless weight sensor (3), the 5G radio frequency wireless amplitude sensor (4) and the 5G radio frequency wireless wind speed sensor (5) are all of a micro battery integrated power supply structure.

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