Use Of Active RFID Tags On Helmets- Teknopalas

In this article, we will explore how companies use active RFID tags on helmets and their applications in occupational health and safety. First, let’s examine how helmets have been used in occupational safety and review their historical development.

Causes of Occupational Accidents

Research shows that 79% of occupational accidents result from unsafe behaviors, while 20% stem from unsafe conditions. This means human actions cause 99% of work-related accidents.

Importance of Helmets in Occupational Safety

Helmets are crucial for safety, especially in high-risk environments like mines. They protect workers from falling rocks and other impacts. Miners also benefit from helmet models with lamps for better visibility.

Protection for Workers in Construction and Outdoor Environments

Construction workers, those on construction sites, and shipyard employees must wear helmets. Helmets shield outdoor workers from harsh weather conditions. They are also necessary in industries like iron and steel manufacturing.

Protection Against Extreme Conditions

Helmets protect workers from temperatures up to +50 degrees, UV rays, and electric shocks. They offer crucial safety in various hazardous environments.

Evolution of Helmets in the Workplace

Over time, helmets have evolved in material, shape, and design. They have adapted to meet the safety needs of workers. Technological advances continue to improve helmet comfort, durability, and protection.

Source: https://www.riziko.com.tr/baret-kullanimi

History of Helmets in Occupational Health

The helmet, designed to protect the head during work accidents, has its origins with the ED Bullard Company. Founded in 1898 by Edward Dickinson Bullard in San Francisco, USA, the company originally sold mining equipment. EW Bullard, the founder’s son, was inspired by the helmets worn by miners during World War I to shield themselves from falling debris. In 1919, he patented the design for a helmet.

The first significant use of helmets in the workplace is debated in the USA. Some researchers point to the construction of the Hoover Dam in 1931, while others suggest it was the construction of the Golden Gate Bridge in 1933 that marked the widespread adoption of helmets.

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Use of Active RFID Tags on Helmets for Occupational Safety

The use of active RFID tags on helmets offers significant improvements in occupational safety. Thanks to this technology, workers can be instantly warned without requiring the presence of an authorized person. The system sends personal warnings or vibrations to alert personnel in dangerous situations. In emergencies or unfavorable conditions in the field, the system sends real-time notifications to designated officials via email or SMS. IOT developers are continuously working on expanding the tracking distance, which currently reaches up to 70-80 meters in open areas.

This system enhances safety measures by reducing the likelihood of occupational accidents. If a worker removes their helmet or becomes inactive, the system immediately updates the information on a centralized platform. Furthermore, it can prevent accidents caused by negligence by restricting unauthorized personnel from entering hazardous areas. The system tracks workers in real-time, ensuring that officials can quickly identify their location and respond in case of danger.

By accurately monitoring workers within designated areas, the use of active RFID tags on helmets significantly reduces emergency response times and improves overall occupational safety. The main objectives are to enhance work safety, boost personnel productivity, and minimize potential damage caused by delays. This system is applicable in various sectors, including shipyards, construction sites, mines, and the iron and steel industry, where safety and efficient response times are critical.

HOW TO INSTALL THE SYSTEM?

Hardware

The system has been developed to allow control through wireless access. In this way, personnel can be tracked using signals received from Beacon products, which are IoT devices that use Bluetooth technology for tracking and enhancing occupational safety. Moreover, these Beacons are attached to helmets and continuously broadcast signals. As a result, the signals emitted by these devices are detected by Gateways, which enables effective monitoring.

INSTALLATION OF THE SYSTEM IN CLOSED AREAS

In indoor areas, such as rooms with walls, glass, and other obstructions, we strategically place Gateways on a room-by-room basis, dividing the areas into sections with specific restrictions. For example, we only need one Gateway per room to ensure proper coverage, as shown in the sample sketch below. However, in larger areas like HOL 2, we increase the number of Gateways based on the outcome of a technical assessment. By doing this, we ensure that the system functions optimally and provides comprehensive tracking.

Total Area: 2174 m2

Total Number of Gateways: 29 Pieces

INSTALLATION OF THE SYSTEM IN OPEN AREAS

In open areas, where there are no walls, glass, or other obstructions to interfere with the signal reception of Gateway devices, the devices can be installed at wider intervals. This allows for greater flexibility in placement, ensuring optimal signal coverage and effective tracking of personnel across large open spaces.

Total Area: 318,780 m2

Average Distance Between Gateways: 65 -80 meters

Total Number of Gateways: 50 pcs

In this article, we explained how companies can enhance occupational health and safety measures by using hard hats.

You can contact contact for detailed information on the subject.

TEKNOPALAS

Use Of Active RFID Tags On Helmets