A wristband for personnel positioning and overheat warning in high-temperature areas of a metallurgical workshop

By designing a wristband that integrates temperature detection and GPS positioning in the high-temperature area of ​​a metallurgical workshop, the problem of real-time monitoring and positioning under high-temperature emergencies was solved, enabling efficient early warning and rescue, and ensuring personnel safety and equipment stability.

CN224440567UActive Publication Date: 2026-07-03SHANDONG SHIHENG SPECIAL STEEL GROUP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG SHIHENG SPECIAL STEEL GROUP
Filing Date
2025-07-23
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The lack of real-time temperature monitoring and precise positioning in high-temperature areas of metallurgical workshops leads to low rescue efficiency in high-temperature emergencies, and existing safety measures are unable to provide timely warnings and locate personnel.

Method used

Design a wristband that integrates temperature detection, early warning and GPS positioning functions, including a temperature detection component, an early warning component and a GPS positioning device. The wristband monitors the ambient temperature in real time and issues vibration and sound warnings when the temperature exceeds the limit, and locates the person's position in real time.

Benefits of technology

It enables real-time temperature monitoring and personnel location in high-temperature areas of metallurgical workshops, improving the timeliness of early warning and rescue efficiency in high-temperature emergencies, and ensuring personnel safety and equipment stability.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of metallurgical safety technology and discloses a personnel positioning and overheat warning wristband for high-temperature areas in metallurgical workshops. The wristband includes a strap, a mounting shell, a temperature detection component, and an early warning component electrically connected to the temperature detection component. This personnel positioning and overheat warning wristband for high-temperature areas in metallurgical workshops has advantages such as good warning effect and ease of crisis management. It solves the problems of not being able to monitor the ambient temperature of personnel in real time in the event of a high-temperature hazard or other emergency; the difficulty of regular patrols covering all working periods, resulting in monitoring blind spots; and the inability of managers to promptly grasp the location of personnel, leading to low rescue efficiency and delays in obtaining the best rescue opportunity.
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Description

Technical Field

[0001] This utility model relates to the field of metallurgical safety technology, specifically a personnel positioning and overheat warning wristband for high-temperature areas in metallurgical workshops. Background Technology

[0002] In modern metallurgical industrial production, high-temperature working environments in metallurgical workshops are commonplace. These workshops contain high-temperature production processes such as furnaces and casting, where on-site temperatures often far exceed the comfortable range that the human body can tolerate, reaching hundreds of degrees Celsius in some areas. High-temperature environments not only lead to health problems such as heatstroke and heat exhaustion among workers, but can also cause equipment malfunctions, thereby threatening personnel safety.

[0003] Currently, personnel safety in high-temperature areas of metallurgical workshops mainly relies on traditional measures such as safety warning signs, regular inspections, and the provision of heatstroke prevention and cooling equipment. However, these methods have many limitations. Safety warning signs only serve as reminders and cannot monitor the ambient temperature in real time; regular inspections cannot cover all working hours, resulting in blind spots; while heatstroke prevention and cooling equipment can alleviate discomfort, it cannot proactively warn of high-temperature hazards; furthermore, existing technologies lack effective means for precise personnel location. In the event of a high-temperature hazard or other emergency, managers cannot promptly determine the personnel's location, leading to low rescue efficiency and delays in obtaining the best rescue opportunity. Therefore, this paper proposes a personnel location and overheat warning wristband for high-temperature areas in metallurgical workshops to address the above problems. Utility Model Content

[0004] (a) Technical problems to be solved

[0005] To address the shortcomings of existing technologies, this utility model provides a personnel positioning and over-temperature warning wristband for high-temperature areas in metallurgical workshops. It has advantages such as good warning effect and convenient crisis management. It solves the problems that once a high-temperature hazard or other emergency occurs, it is impossible to monitor the ambient temperature of personnel in real time; regular patrols are difficult to cover all working periods, resulting in monitoring blind spots, making it difficult for managers to grasp the location of personnel in a timely manner, leading to low rescue efficiency and delays in the best rescue opportunity.

[0006] (II) Technical Solution

[0007] The technical solution of this utility model to solve the above-mentioned technical problems is as follows: a personnel positioning and over-temperature warning wristband in a high-temperature area of ​​a metallurgical workshop, including a strap, the strap having a mounting shell, the mounting shell having a temperature detection component, and the mounting shell having a warning component electrically connected to the temperature detection component.

[0008] The beneficial effects of this utility model are:

[0009] This personnel positioning and over-temperature warning wristband for high-temperature areas in a metallurgical workshop integrates temperature detection and warning components into a housing, which, combined with a strap, forms the wristband. This allows the wristband to monitor the ambient temperature in real time when workers are operating in high-temperature areas of the metallurgical workshop. Once the detected temperature exceeds a preset threshold, the temperature detection component transmits a signal to the warning component, triggering an alarm and reminding workers to evacuate the high-temperature area in time to ensure personnel safety. At the same time, this integrated structural design makes it easy for workers to wear and does not affect normal operations.

[0010] Based on the above technical solution, the present invention can be further improved as follows.

[0011] Furthermore, the temperature detection assembly includes a temperature detection head and a processor. The mounting housing is provided with a temperature detection head extending to its outer side, and the temperature detection head is provided with a processor electrically connected thereto.

[0012] The advantage of adopting the above-mentioned further solution is that the temperature detection head extends to the outside of the mounting housing, enabling more direct and accurate sensing of the surrounding ambient temperature. The detected temperature data is transmitted to the processor in real time, where it is analyzed and processed, and compared with a preset temperature threshold. When the temperature reaches or exceeds the threshold, the processor immediately sends a command to the early warning component to activate the early warning program, ensuring the timeliness and accuracy of the warning.

[0013] Furthermore, the warning component includes a vibration generator and an adhesive block. The mounting housing is provided with a vibration generator electrically connected to the processor, and the vibration generator is provided with an adhesive block extending to its outer side.

[0014] The beneficial effect of adopting the above-mentioned further solution is that when the processor issues a warning command, the vibration generator starts to work and generate vibration. The bonding block extends to the outside of the mounting housing and fits against the worker's skin, which can more effectively transmit the vibration to the worker, alerting the worker to excessively high ambient temperature through touch; in the noisy environment of a metallurgical workshop, this vibration warning method is not easily interfered with by ambient noise, ensuring that workers can detect danger signals in a timely manner.

[0015] Furthermore, the mounting housing is provided with an energy storage component, which includes a charging port and a battery. The mounting housing is provided with a charging port and a battery electrically connected to the charging port and the processor.

[0016] The beneficial effect of adopting the above-mentioned further solution is that the energy storage component, consisting of the charging port and the battery, provides stable power support for all components of the bracelet. Workers can charge the battery through the charging port to ensure it has sufficient charge. Even during long-term operation in the metallurgical workshop, the bracelet can continue to function normally, preventing malfunctions in functions such as temperature detection, early warning, and positioning due to insufficient power, thus ensuring the bracelet's reliability and stability.

[0017] Furthermore, the strap is equipped with a discharge plate that is electrically connected to the processor, and the strap is made of insulating material.

[0018] The beneficial effect of adopting the above-mentioned further solution is that the discharge plate is electrically connected to the processor. If the worker does not take any action after the vibration reminder, the discharge plate will release current to the part of the worker's arm that is in contact with it, which can further remind the worker. At the same time, the strap is made of insulating material to prevent damage to the processor and other electronic components when the current is released, and to ensure the normal operation of the internal circuit of the bracelet.

[0019] Furthermore, the mounting housing is equipped with a buzzer, which is electrically connected to the processor.

[0020] The beneficial effect of adopting the above-mentioned further solution is that the buzzer is electrically connected to the processor. When the processor determines that the ambient temperature exceeds the limit, in addition to controlling the vibration generator to work, it will also trigger the buzzer to emit an alarm sound. By using sound warnings, an additional reminder method is added on the basis of visual and tactile warnings, enabling workers to perceive the danger of high temperatures from multiple dimensions. This is especially suitable for workers who are somewhat distracted or have poor tactile sensitivity, improving the comprehensiveness and effectiveness of the warning.

[0021] Furthermore, the mounting housing is equipped with a GPS positioning device, which is electrically connected to the processor.

[0022] The beneficial effects of adopting the above-mentioned further solution are that the GPS positioning device is electrically connected to the processor, which can obtain the location information of the workers in the metallurgical workshop in real time; in the event of high temperature danger or other emergency, the managers can obtain the positioning information sent by the wristband through the background system, quickly and accurately grasp the specific location of the workers, facilitate timely rescue, improve rescue efficiency, and reduce the losses caused by the accident; at the same time, it also helps the managers to monitor and manage the work trajectory of the workers, and optimize personnel scheduling and work arrangements. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the structure of this utility model;

[0024] Figure 2 This is a schematic diagram of the mounting shell of this utility model;

[0025] Figure 3 This is a bottom view of the mounting shell of this utility model;

[0026] Figure 4 This is a cross-sectional view of the mounting shell of this utility model.

[0027] In the diagram: 1. Straps; 2. Mounting shell; 3. Temperature detection component; 31. Temperature detection head; 32. Processor; 4. Warning component; 41. Vibration generator; 42. Adhesive block; 5. Energy storage component; 51. Charging port; 52. Battery; 6. Discharge plate; 7. Buzzer; 8. GPS positioning device. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0029] In the embodiments, by Figure 1-4 The present invention provides a personnel positioning and over-temperature warning wristband for high-temperature areas in metallurgical workshops. The wristband 1 includes a strap 1, a mounting shell 2, a temperature detection component 3, and a warning component 4 electrically connected to the temperature detection component 3.

[0030] Temperature detection assembly 3 includes temperature detection head 31 and processor 32. Mounting housing 2 is provided with temperature detection head 31 extending to its outer side. Temperature detection head 31 is provided with processor 32 electrically connected thereto.

[0031] The temperature sensor 31 extends to the outside of the mounting housing 2, enabling it to sense the ambient temperature more directly and accurately. The detected temperature data is transmitted to the processor 32 in real time. The processor 32 analyzes and processes the data, comparing it with a preset temperature threshold. When the temperature reaches or exceeds the threshold, the processor 32 immediately sends a command to the warning component 4 to initiate the warning program, ensuring the timeliness and accuracy of the warning.

[0032] The warning component 4 includes a vibration generator 41 and an adhesive block 42. The mounting housing 2 is provided with a vibration generator 41 that is electrically connected to the processor 32. The vibration generator 41 is provided with an adhesive block 42 extending to its outer side.

[0033] When the processor 32 issues a warning command, the vibration generator 41 starts to work and generates vibration. The contact block 42 extends to the outside of the mounting shell 2 and fits against the worker's skin, which can transmit the vibration more effectively to the worker and remind the worker of the excessively high ambient temperature through touch. In the noisy environment of the metallurgical workshop, this vibration warning method is not easily interfered with by the ambient noise, ensuring that the worker can detect the danger signal in time.

[0034] The mounting housing 2 is provided with an energy storage component 5, which includes a charging socket 51 and a battery 52. ​​The mounting housing 2 is provided with a charging socket 51 and a battery 52 that is electrically connected to the charging socket 51 and the processor 32.

[0035] The energy storage component 5, consisting of the charging port 51 and the battery 52, provides stable power support for all components of the wristband. Workers can charge the battery 52 through the charging port 51 to ensure it has sufficient charge. Even during long-term work in the metallurgical workshop, the wristband can continue to function normally, preventing malfunctions in functions such as temperature detection, early warning, and positioning due to insufficient power, thus ensuring the wristband's reliability and stability.

[0036] The strap 1 is equipped with a discharge plate 6 that is electrically connected to the processor 32, and the strap 1 is made of insulating material;

[0037] The discharge plate 6 is electrically connected to the processor 32. If the worker does not take any action after the vibration alert, the discharge plate 6 will release current to the part of the worker's arm that is in contact with it, which can further alert the worker. At the same time, the strap 1 is made of insulating material to prevent damage to the processor 32 and other electronic components when the current is released, and to ensure the normal operation of the internal circuit of the bracelet.

[0038] The mounting housing 2 is equipped with a buzzer 7, which is electrically connected to the processor 32;

[0039] The buzzer 7 is electrically connected to the processor 32. When the processor 32 determines that the ambient temperature exceeds the limit, in addition to controlling the vibration generator 41 to work, it will also trigger the buzzer 7 to sound an alarm. By using sound warnings, an additional reminder method is added on top of visual and tactile warnings, allowing workers to perceive the danger of high temperatures from multiple dimensions. This is especially suitable for workers who are inattentive or have poor tactile sensitivity, improving the comprehensiveness and effectiveness of the warning.

[0040] The mounting housing 2 is equipped with a GPS positioning device 8, which is electrically connected to the processor 32.

[0041] The GPS positioning device 8 is electrically connected to the processor 32, enabling it to acquire real-time location information of workers in the metallurgical workshop. In the event of high temperature hazards or other emergencies, managers can obtain the positioning information sent by the wristband through the back-end system, quickly and accurately grasp the specific location of the workers, facilitate timely rescue, improve rescue efficiency, and reduce losses caused by accidents. At the same time, it also helps managers monitor and manage the work trajectory of workers, and optimize personnel scheduling and work arrangements.

[0042] Working principle:

[0043] Step 1: The wristband uses the temperature detection head 31 in the temperature detection component 3 to sense the ambient temperature of the high-temperature area in the metallurgical workshop in real time. The detection data is quickly transmitted to the processor 32 for analysis and processing. When the temperature reaches or exceeds the preset threshold, the processor 32 immediately sends a command to the early warning component 4. At this time, the vibration generator 41 generates vibration, which is transmitted to the worker through the contact block 42. At the same time, the buzzer 7 sounds an alarm, reminding the worker from multiple dimensions that the ambient temperature is too high, achieving timely and accurate early warning. If the worker does not take any action after the vibration reminder, the discharge plate 6 will release current to the part of the worker's arm that is in contact with it, which can further remind the worker.

[0044] Step 2: The charging port 51 and battery 52 in the energy storage component 5 provide stable power to the various components of the wristband, supporting long-term operation and avoiding functional failure due to insufficient power.

[0045] Step 3: The GPS positioning device 8 is connected to the processor 32 to obtain the real-time location information of the workers in the metallurgical workshop. During normal operation, managers can monitor the work trajectory through the back-end system and optimize personnel scheduling; in the event of high temperature hazards or emergencies, the back-end can quickly obtain the location, accurately grasp the personnel's location, facilitate timely rescue, greatly improve rescue efficiency, reduce accident losses, and achieve comprehensive safety protection and efficient management for the workers in the metallurgical workshop.

[0046] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0047] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A high-temperature area personnel positioning and over-temperature early warning bracelet for a metallurgical workshop, comprising a binding belt (1), characterized in that: The strap (1) is provided with a mounting shell (2), the mounting shell (2) is provided with a temperature detection component (3), and the mounting shell (2) is provided with a warning component (4) electrically connected to the temperature detection component (3). ​ 2. The personnel positioning and over-temperature early warning bracelet for high-temperature area of a metallurgical workshop according to claim 1, characterized in that: The temperature detection assembly (3) includes a temperature detection head (31) and a processor (32). The mounting housing (2) is provided with a temperature detection head (31) extending to its outer side, and the temperature detection head (31) is provided with a processor (32) electrically connected thereto.

3. The personnel positioning and over-temperature early warning bracelet for high-temperature area of a metallurgical workshop according to claim 2, characterized in that: The warning component (4) includes a vibration generator (41) and an adhesive block (42). The mounting housing (2) is provided with a vibration generator (41) electrically connected to the processor (32), and the vibration generator (41) is provided with an adhesive block (42) extending to its outer side.

4. The personnel positioning and over-temperature early warning bracelet for high-temperature area of a metallurgical workshop according to claim 3, characterized in that: The mounting housing (2) is provided with an energy storage component (5), which includes a charging socket (51) and a battery (52). The mounting housing (2) is provided with a charging socket (51) and a battery (52) electrically connected to the charging socket (51) and the processor (32).

5. The personnel positioning and over-temperature early warning bracelet for high-temperature area of a metallurgical workshop according to claim 2, characterized in that: The strap (1) is provided with a discharge plate (6) electrically connected to the processor (32), and the strap (1) is made of insulating material.

6. The personnel positioning and over-temperature early warning bracelet for high-temperature area of a metallurgical workshop according to claim 2, characterized in that: The mounting housing (2) is equipped with a buzzer (7), which is electrically connected to the processor (32).

7. The personnel positioning and over-temperature early warning bracelet for high-temperature area of a metallurgical workshop according to claim 2, characterized in that: The mounting housing (2) is equipped with a GPS positioning device (8), which is electrically connected to the processor (32).