CN111028596A - Simulation training method for lifting operation of nuclear power station steam turbine plant - Google Patents
Simulation training method for lifting operation of nuclear power station steam turbine plant Download PDFInfo
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- CN111028596A CN111028596A CN201911249838.3A CN201911249838A CN111028596A CN 111028596 A CN111028596 A CN 111028596A CN 201911249838 A CN201911249838 A CN 201911249838A CN 111028596 A CN111028596 A CN 111028596A
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Abstract
The invention relates to the technical field of nuclear power station informatization construction, and provides a lifting operation simulation training method for a nuclear power station steam turbine plant, which comprises the following steps of S10: the trainees wear the somatosensory equipment and stand on the treadmill; step S20: starting a simulation system, wherein the simulation system is electrically connected with the somatosensory equipment and the treadmill; step S30: selecting a simulation operation scene of the hoisting operation safety training in the simulation system; step S50: the trainees enter a simulation operation scene of the safety training of the hoisting operation virtually through the somatosensory equipment; step S50: the trainee selects to enter the lifting operation isolation area in the simulation operation scene, and when the trainee walks to the lower part of the lifting equipment in the lifting operation isolation area, the trainee is in violation of the lifting operation isolation area instruction, and the lifting equipment falls and smashes the trainee. The experience person feels the whole process of being hit by the hoisting equipment, the hoisting injury risk is visual, and the training effect is effectively improved.
Description
Technical Field
The invention relates to the technical field of information construction of nuclear power stations, in particular to a simulation training method for lifting operation of a steam turbine plant of a nuclear power station.
Background
According to data statistics, the number of the death people of the lifting injury accidents of the nuclear power station in China accounts for about 15% of the total number of the death people of all the nuclear power stations every year, and the number of the death people of the lifting equipment accidents of the nuclear power station is the top of the number of the death people of all the mechanical accidents of the nuclear power station every year. Most hoisting equipment of the nuclear power plant has a huge and solid appearance, so that the illusion of safety is easily brought to people. If the field operating personnel of the nuclear power station cannot see the lifting injury accident with the eyes, the serious consequence of the lifting injury risk of the nuclear power station is difficult to be expected, so that the heart of paralysis is easy to appear in the related work of lifting operation, the violation of regulations occurs, and the probability of the lifting injury accident of the nuclear power station is increased.
The traditional nuclear power station lifting injury safety training method is generally used for developing various theoretical training classes, learning classes, discussion classes and the like, and due to the fact that an experiencer cannot experience the falling process of a lifted object in person, visualization of lifting injury risks cannot be achieved, and the training effect is not ideal.
Disclosure of Invention
Therefore, a simulation training method for lifting operation of a nuclear power station steam turbine plant needs to be provided aiming at the problems of the conventional technology.
A simulation training method for lifting operation of a steam turbine plant of a nuclear power station comprises the following steps:
step S10: the trainees wear the somatosensory equipment and stand on the treadmill;
step S20: starting a simulation system, wherein the simulation system is electrically connected with the somatosensory equipment and the running machine;
step S30: selecting a simulation operation scene of the hoisting operation safety training in the simulation system;
step S40: a trainee virtually enters a simulated operation scene of the lifting operation safety training through the somatosensory equipment and walks in the simulated operation scene through the treadmill;
step S50: and the trainee selects to enter the hoisting operation isolation area in the simulation operation scene, when the trainee walks to the position below the hoisting equipment in the hoisting operation isolation area, an instruction of rushing the hoisting operation isolation area is violated, and the hoisting equipment falls and smashes the trainee.
The simulation training method for the lifting operation of the nuclear power station steam turbine plant is characterized in that a simulation operation scene of the safety training of the lifting operation is established in a simulation system, a trainee makes actions of 'rushing to the lifting operation isolation area' and walking on a 'treadmill' in the simulation operation scene to enable the trainee to advance to the position below the lifting equipment in the lifting operation isolation area, an instruction of rushing to the lifting operation isolation area is violated, the lifting equipment falls and falls onto the trainee, an experiencer feels the whole process of 'smashing' by the lifting equipment, the purposes of shocking mind and voluntarily adopting preventive measures to avoid lifting injury are achieved, the risk of the lifting injury is visualized, and the training effect is effectively improved.
In one embodiment, step S50 is followed by:
step S60: and starting an emergency scheme of the simulation system, and pushing an emergency scheme video of a third person weighing visual angle to the trained personnel.
In one embodiment, step S60 is followed by:
step S70: and finishing the on-line training.
In one embodiment, step S70 specifically includes:
step S71: the simulation system returns to the main interface;
step S72: the trainee unloads the somatosensory equipment and walks down the treadmill;
step S74: the treadmill is shut down and the simulation system is shut down.
In one embodiment, the motion sensing device comprises a helmet, a remote control handle, socks, an experience shoe and a waist ring.
In one embodiment, step S10 specifically includes:
step S11: the trainee wears the sock and the experience shoes;
step S12: starting the treadmill;
step S13: opening a waist ring on the treadmill, and standing a trainee on a platform of the treadmill;
step S14: locking a waist ring on the treadmill to limit the trainee within a preset range;
step S15: opening and adjusting a waistband and a leg fixing band on the treadmill;
step S16: the waistband is locked on the waist of the trainee, and the leg fixing bands are bound on the legs of the trainee;
step S17: a trainee wears the helmet and holds the remote control handle.
In one embodiment, step S50 specifically includes:
step S51: the method comprises the following steps that a trainee walks to an observation platform according to a route indication road sign in a simulation operation scene, the trainee stands on the observation platform and can see safety marks around a hoisting operation isolation area, and the safety marks comprise warning belts arranged around the hoisting operation isolation area;
step S52; ringing a bell near the warning band, enabling the trainee to walk to the front of the warning band, and displaying a prompt language of whether to dismantle the warning band and options of detaching the warning band and not detaching the warning band in front of the trainee at the moment;
step S53, if the trainee selects the option of 'not removing the warning tape', the method goes to step S54; if the trainee selects the option of 'dismantling the warning tape', the method goes to step S55;
step S54: displaying a correct indication line in the simulation operation scene, enabling the trainee to walk to a preset position according to the indication line, and when the trainee walks to the preset position, displaying a 'return experience violation operation' key in front of the trainee, and entering a step S55;
step S55: the personnel of being trained get into the jack-up operation isolation region, when the personnel of being trained walked to the jack-up equipment's of jack-up operation isolation region below, the offender breaks through the jack-up operation isolation region instruction, and the personnel of being trained show the tip of "please notice the top" in the front, and the jack-up equipment falls and pounces to the personnel of being trained.
In one embodiment, the height of the observation platform in the simulated work scene is 15m-20 m.
In one embodiment, the warning tape is a red and white spacer tape.
In one embodiment, the safety mark further comprises an isolation area landmark boundary arranged around the lifting operation isolation area.
Drawings
Fig. 1 is a flowchart of a simulation training method for lifting operation of a steam turbine plant of a nuclear power plant according to an embodiment of the present invention.
Detailed Description
In order that the invention may be more fully understood, reference will now be made to the following description. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.
Referring to fig. 1, a simulation training method for lifting operation of a steam turbine plant of a nuclear power plant according to an embodiment of the present invention is suitable for safety training of lifting injury of the steam turbine plant of the nuclear power plant; the simulation training method for the lifting operation of the steam turbine plant of the nuclear power station comprises the following steps:
step S10: the trainees wear the body sensing equipment and stand on the treadmill.
Specifically, the body sensing device comprises a helmet, a remote control handle, socks, experience shoes and a waist ring. Thus, step S10 specifically includes:
step S11: the trainees wear socks and experience shoes. In this embodiment, the sock is a disposable item.
Step S12: starting the running machine to enable the running machine to enter a standby state.
Step S13: the waist ring on the treadmill is opened and the trainee stands on the platform of the treadmill.
Step S14: the waist ring on the treadmill is locked to limit the trainee to a preset range.
Step S15: the waistband and the leg fixing belt on the treadmill are opened and adjusted.
Step S16: the waist belt is locked on the waist of the trainee, and the leg fixing belts are bound on the legs of the trainee. It should be noted that the waist belt and the leg fixing straps are provided with buckles, that is, the waist belt and the leg fixing straps are buckled by the buckles.
Step S17: the trainee wears the helmet and holds the remote control handle. The number of the remote control handles is two, and the trainee respectively holds one remote control handle by the left hand and the right hand.
Step S20: and starting the simulation system, wherein the simulation system is electrically connected with the somatosensory equipment and the treadmill.
Step S30: selecting a simulation operation scene of the hoisting operation safety training in the simulation system; the simulation operation scene of the heavy work safety training is established according to the real operation site 1:1 ratio, and the experience feeling of the trained personnel is effectively improved.
Step S50: the trainees enter a simulation operation scene of the lifting operation safety training virtually through the somatosensory equipment, and walk in the simulation operation scene through the running machine. Specifically, the trainee is immersed in the simulated work scene which is just the same as the real work field through the experience equipment, and the trainee walks on the treadmill in situ to realize walking in the simulated work scene of the crane work safety training.
Step S50: the trainee selects to enter the lifting operation isolation area in the simulation operation scene, and when the trainee walks to the lower part of the lifting equipment in the lifting operation isolation area, the trainee is in violation of the lifting operation isolation area instruction, and the lifting equipment falls and smashes the trainee. Step S50 specifically includes:
step S51: the trainee walks to observation platform according to the route indicator in the simulation operation scene, and the trainee stands and can see the safety sign around the jack-up operation isolation region on observation platform, and the safety sign is including the warning area that encircles the setting of jack-up operation isolation region. Further, the route indicator is a yellow route; the height of the observation platform is 15m-20 m. The warning band is red and white interval strip to improve the eye-catching effect. In some embodiments, the safety mark further comprises an isolation area landmark boundary line arranged around the hoisting operation isolation area, so that the warning effect is effectively improved. It should be noted that the trainee can interact with the object in the simulated working scene by operating the handle, for example, by picking the trigger under the right-hand handle.
Step S52; the ring tone is sounded near the warning band, the trainee walks to the warning band in front, at the moment, the trainee displays the prompt language of 'whether to dismantle the warning band' and displays options of 'dismantle the warning band' and 'not dismantle the warning band'.
Step S53, if the trainee selects the option of 'not removing the warning tape', the method goes to step S54; if the trainee selects the "remove warning band" option, the process proceeds to step S55. Specifically, when the trainee selects the "do not remove the warning band" option, the trainee brings the remote control grip close to the warning band, and pulls down the trigger on the remote control grip to contact the warning band.
Step S54: displaying a correct indication line in the simulation operation scene, enabling the trainee to walk to a preset position according to the indication line, displaying a 'return experience violation operation' option in front of the trainee when the trainee walks to the preset position, and entering a step S55 after the trainee clicks the 'return experience violation operation' option; in some embodiments, the trainee also shows "no break into the jack-up work isolation area, like you like" in front of the trainee to increase the achievement feeling of the trainee. The step S54 is set to increase the experience of the trainee, i.e. the trainee is not required to be trained
In some embodiments, the trainees may also display "continue learning safety knowledge" before they click "continue learning safety knowledge" and then proceed to step 50, which is suitable for trainees who are not suitable for experiencing a smash by an object at high altitude, so that the trainees can watch the emergency plan to improve safety awareness.
Step S55: the personnel of being trained get into the jack-up operation isolation region, when the personnel of being trained walked to the jack-up equipment's of jack-up operation isolation region below, the offender breaks through the jack-up operation isolation region instruction, and the personnel of being trained show the tip of "please notice the top" in the front, and the jack-up equipment falls and pounces to the personnel of being trained. Through show "please notice the top" before the trainee to when making the back of the body hang equipment and fall, the trainee can in time be raised the head and seen, thereby lets the trainee experience whole by the process of "pounding", thereby effectively improves experience effect.
In some embodiments, step S50 is followed by:
step S60: and starting an emergency scheme of the simulation system, and pushing an emergency scheme video of a third person perspective to the trained personnel. The emergency plan specifically comprises:
an accident ring of the hoisting operation isolation area is sounded;
working personnel near the hoisting operation isolation area arrive at the accident site of the hoisting operation isolation area;
the worker checks the injury of the smashed person;
the worker transfers the smashed person to the safety area and selects whether to make a rescue call according to the injury degree of the smashed person.
The common injuries include crush injury, finger trauma, impact injury, and fracture of limbs. For example, if the worker checks that the injury of the smashed person is forearm fracture, the operation steps are as follows:
(1) the worker transports the smashed person to a safety area;
(2) dialing a rescue call, reporting injury conditions:
number of wounds: one person
Injury cause: lifting operation violation
Injury: severe severity of disease
(3) Bending the injured forearm of the smashed person by 80 degrees with the palm facing inwards;
(4) placing two overtime work pieces on the inner side and the outer side of the injured forearm;
(5) fixing the wrist joint and the elbow joint of the injured arm by using a bandage, and properly strengthening and fixing the middle of the wrist joint and the elbow joint;
(6) waiting for the ambulance to arrive and handing over the wounded person to the ambulance personnel.
In some embodiments, step S60 is followed by:
step S70: and finishing the on-line training. Wherein, step S70 specifically includes:
step S71: the simulation system returns to the home interface.
Step S72: the trainee unloads the somatosensory device and walks down the treadmill.
Step S74: the treadmill is shut down and the simulation system is shut down.
Wherein, step S72 specifically includes:
step S720: taking down the helmet and the remote control handle and putting the helmet and the remote control handle on the hanging rack;
step S721: opening the waist ring, detaching the waist belt and the leg fixing belt, walking down the treadmill, and locking the waist ring;
step S722: taking off the experience shoes and the sock covers; the sock is disposable, so that the sock needs to be disposed of in time.
After step S74, the trainee puts the mouse, keyboard, and remote controller into a bag, and the trainee checks the electric quantity of the handle and the sensing shoe and charges the handle and the sensing shoe.
The simulation training method for the lifting operation of the nuclear power station steam turbine plant is characterized in that a simulation operation scene for lifting operation safety training is established in a simulation system, the simulation operation scene is a Virtual environment, a trainee makes actions of 'rushing to a lifting operation isolation area' and walking on a 'treadmill' in the simulation operation scene to enable the trainee to move to the position below lifting equipment of the lifting operation isolation area, an instruction of the jack-up operation isolation area is violated, the lifting equipment falls and falls onto the trainee, so that an experiencer feels the whole process of 'smashing' of the lifted equipment, the purposes of shocking mind and avoiding lifting injury by adopting prevention measures voluntarily are achieved, the important injury risk is visualized by utilizing VR (Virtual Reality) technology, the training effect is effectively improved, the trainee can know the reasons of smashing and the related knowledge of power plant alarm and emergency response under the line, the number of illegal conditions of the nuclear power station which breaks the crane operation isolation area easily is reduced to zero, and the probability of crane damage accidents of the steam turbine plant of the nuclear power station is reduced by 73%.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (10)
1. A simulation training method for lifting operation of a steam turbine plant of a nuclear power station is characterized by comprising the following steps:
step S10: the trainees wear the somatosensory equipment and stand on the treadmill;
step S20: starting a simulation system, wherein the simulation system is electrically connected with the somatosensory equipment and the running machine;
step S30: selecting a simulation operation scene of the hoisting operation safety training in the simulation system;
step S40: a trainee virtually enters a simulated operation scene of the lifting operation safety training through the somatosensory equipment and walks in the simulated operation scene through the treadmill;
step S50: and the trainee selects to enter the hoisting operation isolation area in the simulation operation scene, when the trainee walks to the position below the hoisting equipment in the hoisting operation isolation area, an instruction of rushing the hoisting operation isolation area is violated, and the hoisting equipment falls and smashes the trainee.
2. The simulation training method for lifting operation of the nuclear power plant steam turbine building as claimed in claim 1, wherein the step S50 is followed by further comprising:
step S60: and starting an emergency scheme of the simulation system, and pushing an emergency scheme video of a third person weighing visual angle to the trained personnel.
3. The simulation training method for lifting operation of the nuclear power plant steam turbine building as claimed in claim 2, wherein the step S60 is followed by further comprising:
step S70: and finishing the on-line training.
4. The simulation training method for lifting operation of the nuclear power plant steam turbine factory building according to claim 3, wherein the step S70 is specifically as follows:
step S71: the simulation system returns to the main interface;
step S72: the trainee unloads the somatosensory equipment and walks down the treadmill;
step S74: the treadmill is shut down and the simulation system is shut down.
5. The simulation training method for lifting operation of the nuclear power plant steam turbine factory building as claimed in claim 1, wherein the body sensing equipment comprises a helmet, a remote control handle, socks, experience shoes and waist rings.
6. The simulation training method for lifting operation of the nuclear power plant steam turbine factory building according to claim 5, wherein the step S10 is specifically as follows:
step S11: the trainee wears the sock and the experience shoes;
step S12: starting the treadmill;
step S13: opening a waist ring on the treadmill, and standing a trainee on a platform of the treadmill;
step S14: locking a waist ring on the treadmill to limit the trainee within a preset range;
step S15: opening and adjusting a waistband and a leg fixing band on the treadmill;
step S16: the waistband is locked on the waist of the trainee, and the leg fixing bands are bound on the legs of the trainee;
step S17: a trainee wears the helmet and holds the remote control handle.
7. The simulation training method for lifting operation of the nuclear power plant steam turbine factory building according to claim 1, wherein the step S50 is specifically as follows:
step S51: the method comprises the following steps that a trainee walks to an observation platform according to a route indication road sign in a simulation operation scene, the trainee stands on the observation platform and can see safety marks around a hoisting operation isolation area, and the safety marks comprise warning belts arranged around the hoisting operation isolation area;
step S52; ringing a bell near the warning band, enabling the trainee to walk to the front of the warning band, and displaying a prompt language of whether to dismantle the warning band and options of detaching the warning band and not detaching the warning band in front of the trainee at the moment;
step S53, if the trainee selects the option of 'not removing the warning tape', the method goes to step S54; if the trainee selects the option of 'dismantling the warning tape', the method goes to step S55;
step S54: displaying a correct indication line in the simulation operation scene, enabling the trainee to walk to a preset position according to the indication line, and when the trainee walks to the preset position, displaying a 'return experience violation operation' key in front of the trainee, and entering a step S55;
step S55: the personnel of being trained get into the jack-up operation isolation region, when the personnel of being trained walked to the jack-up equipment's of jack-up operation isolation region below, the offender breaks through the jack-up operation isolation region instruction, and the personnel of being trained show the tip of "please notice the top" in the front, and the jack-up equipment falls and pounces to the personnel of being trained.
8. The simulation training method for lifting operation of the nuclear power plant steam turbine building as claimed in claim 7, wherein the height of the observation platform in the simulation operation scene is 15m-20 m.
9. The simulation training method for lifting operation of the nuclear power plant steam turbine building as claimed in claim 7, wherein the warning tape is a red and white interval tape.
10. The simulation training method for lifting operation of nuclear power plant steam turbine building as claimed in claim 7, wherein the safety sign further comprises an isolation area landmark boundary line arranged around the lifting operation isolation area.
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