CN210893422U - Automatic identification device for maintenance safety behavior of operating personnel - Google Patents

Abstract

The utility model relates to an overhaul operation safety control technique, it discloses an operation personnel overhauls safety action automatic identification equipment, and automatic identification overhauls on-the-spot safety risk and harmful factor and prediction warning to remind and correct unsafe action, reduce incident emergence probability. The device includes: the device comprises an operating environment temperature detection sensor, an operating environment voltage detection sensor, an operating environment distance detection sensor, an object displacement detection sensor, a non-ionizing radiation sensor, a processor, a power supply module, a charging interface, a memory, a display screen and an alarm; the operation environment temperature detection sensor, the operation environment voltage detection sensor, the operation environment distance detection sensor, the non-ionizing radiation sensor and the object displacement detection sensor are all connected with an input signal of the processor, and an output signal of the processor is connected with the alarm; the memory and the display screen are connected with the processor; the power module provides power for the device, and the charging interface is connected with the power module.

Description

Automatic identification device for maintenance safety behavior of operating personnel

Technical Field

The utility model relates to an overhaul operation safety control technique, concretely relates to operation personnel overhaul safety action automatic identification equipment can be used in production safety field maintenance operations such as metallurgy, mine, trade and industry, machinery, manufacturing, ensures to examine maintenance operation personnel and takes the device under extreme condition (operation violating the regulations) automatic identification and prediction warning.

Background

For the production industry, the maintenance and repair of equipment are often involved, and the field treatment is needed by operating personnel; although corresponding overhaul regulations and flow restrictions exist in industries and enterprises, safety accidents are caused by carelessness of operators or gambling psychology.

Therefore, it is necessary to provide an automatic identification device for the overhaul safety behavior of the operating personnel, which can automatically identify the safety risk and harmful factors in the overhaul field and predict and alarm, so as to remind the operator to correct the unsafe behavior and reduce the occurrence probability of safety accidents.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the automatic identification device for the overhaul safety behaviors of the operating personnel is provided, and can automatically identify the safety risks and harmful factors of an overhaul site and predict and alarm, so that the unsafe behaviors are reminded to be corrected, and the probability of safety accidents is reduced.

In order to solve the technical problem, the utility model discloses a technical scheme is:

an automatic identification device for overhaul safety behaviors of operators comprises:

the device comprises an operating environment temperature detection sensor, an operating environment voltage detection sensor, an operating environment distance detection sensor, an object displacement detection sensor, a non-ionizing radiation sensor, a processor, a power supply module, a charging interface, a memory, a display screen and an alarm; the operation environment temperature detection sensor, the operation environment voltage detection sensor, the operation environment distance detection sensor, the non-ionizing radiation sensor and the object displacement detection sensor are all connected with an input signal of the processor, and an output signal of the processor is connected with the alarm; the memory and the display screen are connected with the processor; the power module provides power for the device, and the charging interface is connected with the power module.

As a further optimization, the device further comprises an external interface, wherein the external interface is connected with the processor and used for outputting data to external equipment.

Preferably, the alarm comprises a buzzer and a light emitting diode, and the buzzer and the light emitting diode are respectively used for outputting sound and light alarms.

As a further optimization, the working environment temperature detection sensor adopts an infrared radiation sensor for measuring the working environment temperature.

As a further optimization, the operation environment voltage detection sensor adopts an electromagnetic induction sensor for measuring the operation environment voltage.

As a further optimization, the working environment distance detection sensor adopts a laser reflection type sensor and is used for measuring the distance between the working personnel and objects in the environment.

As a further optimization, the object displacement detection sensor adopts a laser reflection type sensor for measuring the displacement and direction of the object.

And for further optimization, the processor processes the detection data of each sensor, displays the detection data through the display screen, compares the detection data with preset corresponding operation regulation data, and controls the alarm to send out sound signals with corresponding grade intensity and light signals with corresponding grade colors according to different degrees of deviation when the deviation occurs.

The utility model has the advantages that:

the collected signals are transmitted to a processor through a sensor for data conversion, and the converted signals are transmitted to an output device, wherein the output mode comprises digital display of a display screen and light and voice alarm prompts sent out by comparison with pre-input post operating procedure data; thereby stopping the operation violating the regulations in time and prompting the existing safety risk.

Therefore, the problem that the risk identification of field maintainers is insufficient can be solved, the violation operation is controlled, the operation environment risk and the hazard factor can be automatically identified, the real-time early warning alarm is provided, and meanwhile, safety data are provided for safety evaluation, safety management informatization, safety production and the like, so that the safety management automation level is improved.

Drawings

Fig. 1 is the utility model discloses an operation personnel overhauls safety action automatic identification equipment block diagram.

Detailed Description

The utility model aims at providing an operation personnel overhauls safety action automatic identification equipment, automatic identification overhauls on-the-spot safety risk and harmful factor and prediction warning to remind and correct unsafe action, reduce incident emergence probability. The device automatically identifies operation behaviors and environments through the sensor, converts detected analog signals into digital signals, processes and analyzes the digital signals through the processor, outputs and displays the digital signals, compares the digital signals with safety rule operation data input in advance, provides real-time early warning and alarming, solves safety accidents of various inspection and maintenance industries occurring in operators, prevents (reminds) illegal operation, and provides operation environment monitoring data. Therefore, the scheme of the utility model can automatically identify safety risk and on-site harmful factors (including detecting object strike, object displacement, electric shock and non-ionizing radiation measurement, detecting extrusion and collision, detecting high fall, detecting mechanical injury, sensing high temperature, low temperature and fire, detecting other illegal operation behaviors and the like), provide real-time alarm, correct unsafe behaviors and avoid safety accidents or occupational injury.

In particular, as shown in fig. 1, the automatic identification device of the present invention includes an operating environment temperature detection sensor, an operating environment voltage detection sensor, an operating environment distance detection sensor, a non-ionizing radiation sensor, an object displacement detection sensor, a processor, a power module, a charging interface, a memory, a display screen, and an alarm;

the operation environment temperature detection sensor, the operation environment voltage detection sensor, the operation environment distance detection sensor, the non-ionizing radiation sensor and the object displacement detection sensor are all connected with an input signal of the processor, and an output signal of the processor is connected with the alarm; the memory and the display screen are connected with the processor; the power module provides power for the device, and the charging interface is connected with the power module.

The processor adopts a computer CPU processor and is used for processing and storing the received data into the memory and outputting the data to other equipment for storage through an external interface. The system has the functions of 6-month storage function backup, display, statistics, printing and the like.

The working environment temperature detection sensor adopts an infrared radiation sensor and is used for measuring the working environment temperature, such as fire operation, high-temperature objects, sparks, low temperature and the like.

The working environment voltage detection sensor adopts an electromagnetic induction sensor and is used for measuring the working environment voltage, including measuring the alternating current voltage (36V-6000V) and the direct current voltage (127V-1500V) levels.

The working environment distance detection sensor adopts a laser reflection type sensor and is used for measuring the distance between an operator and an object in the environment, when first laser is emitted (the distance is not more than 60 cm), if the sensor does not receive a reflection signal, the peripheral empty mine is measured, and the danger of high falling exists; when the second laser is emitted (the distance is more than 60cm-500cm), the safe distance between the operator and the object is measured.

The object displacement detection sensor adopts a laser reflection type sensor and is used for measuring the displacement and the direction of an object.

The non-ionizing radiation sensor is used for measuring radio frequency radiation, infrared radiation, ultraviolet radiation and laser.

The alarm comprises a buzzer and a light emitting diode which are respectively used for sound and light alarm output; the sound signal has three intensities of high, medium and low, and the light signal has three colors of red, yellow and blue, thereby corresponding to three different alarm levels.

In the device, the processor processes the detection data of each sensor and then displays the data through the display screen, and simultaneously compares the data with the preset corresponding operation regulation data, and when deviation occurs, the alarm is controlled to send out sound signals with corresponding grade intensity and light signals with corresponding grade color according to different degrees of the deviation.

Claims (8)

1. The utility model provides an operation personnel overhauls safety action automatic identification equipment which characterized in that includes:

the device comprises an operating environment temperature detection sensor, an operating environment voltage detection sensor, an operating environment distance detection sensor, an object displacement detection sensor, a non-ionizing radiation sensor, a processor, a power supply module, a charging interface, a memory, a display screen and an alarm; the operation environment temperature detection sensor, the operation environment voltage detection sensor, the operation environment distance detection sensor, the non-ionizing radiation sensor and the object displacement detection sensor are all connected with an input signal of the processor, and an output signal of the processor is connected with the alarm; the memory and the display screen are connected with the processor; the power module provides power for the device, and the charging interface is connected with the power module.

2. The automatic identification device for overhaul safety behaviors of operators as claimed in claim 1, wherein,

the device also comprises an external interface, wherein the external interface is connected with the processor and used for outputting data to external equipment.

3. The automatic identification device for overhaul safety behaviors of operators as claimed in claim 1, wherein,

the alarm comprises a buzzer and a light emitting diode which are respectively used for sound and light alarm output.

4. The automatic identification device for overhaul safety behaviors of operators as claimed in claim 1, wherein,

the operation environment temperature detection sensor adopts an infrared radiation sensor and is used for measuring the operation environment temperature.

5. The automatic identification device for overhaul safety behaviors of operators as claimed in claim 1, wherein,

the operation environment voltage detection sensor adopts an electromagnetic induction sensor and is used for measuring the operation environment voltage.

6. The automatic identification device for overhaul safety behaviors of operators as claimed in claim 1, wherein,

the working environment distance detection sensor adopts a laser reflection type sensor and is used for measuring the distance between an operator and an object in the environment.

7. The automatic identification device for overhaul safety behaviors of operators as claimed in claim 1, wherein,

the object displacement detection sensor adopts a laser reflection type sensor and is used for measuring the displacement and the direction of an object.

8. An automatic identification device for worker overhaul safety behaviors as claimed in any one of claims 1 to 7,

the device is characterized in that the processor processes detection data of each sensor, displays the detection data through the display screen, compares the detection data with preset corresponding operation regulation data, and controls the alarm to send out sound signals with corresponding grade intensity and light signals with corresponding grade colors according to different degrees of deviation when the deviation occurs.

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