CN109191979A - Core biochemical lesion simulated training system - Google Patents
Core biochemical lesion simulated training system Download PDFInfo
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- CN109191979A CN109191979A CN201811136597.7A CN201811136597A CN109191979A CN 109191979 A CN109191979 A CN 109191979A CN 201811136597 A CN201811136597 A CN 201811136597A CN 109191979 A CN109191979 A CN 109191979A
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Classifications
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B9/00—Simulators for teaching or training purposes
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B23/00—Models for scientific, medical, or mathematical purposes, e.g. full-sized devices for demonstration purposes
- G09B23/28—Models for scientific, medical, or mathematical purposes, e.g. full-sized devices for demonstration purposes for medicine
Abstract
Core biochemical lesion simulated training system, it is related to medical teaching field, it include: simulation model, simulation radiation detector, control module, control module receives the primary radiation source data of the simulation model from simulation radiation detector monitoring, and in response to the primary radiation source data.It further include electronic mark, it is corresponding with simulation model, for storing the primary radiation source data.It is trained by the invention it is possible to simulate the different radiation conditions of the injury for medico, and avoids true radiation, it is safer.
Description
Technical field
The invention belongs to medical simulation fields, are related to a seed nucleus biochemical lesion simulated training system.
Background technique
During great nuclear radiation and chemical damage event medical response, in face of special environment, for special wound
Member cannot need to have the doctor of special protection and training experience for the treatment of according to the conventional timely medical evacuation for the treatment of ladder
Business personnel implement live medical response, but either about the theoretical research of this respect or practical experience, also with actual requirement
There is a big difference.
It is found in long-term practice and application, a small amount of radiation irradiation will not jeopardize the health of the mankind, excessive radiation
Property radiation exposure can generate injury to human body, make one to cause a disease, is carcinogenic, lethal, the exposure time is longer, and the dose of radiation being subject to is just
It is bigger, it endangers also bigger.
Therefore the key link of nuclear radiation emergency event medical emergency response, including theoretical training, environmental monitoring, surface dirt
Dye monitoring, radioactive-pollutant eliminating detergent, scene classification are particularly important with the training of first aid etc..
Summary of the invention
In order to overcome the deficiencies of the prior art, it the present invention provides a seed nucleus biochemical lesion simulated training system, can simulate
The damage of different amount of radiation is trained for medico, securely and reliably.
The technical solution adopted by the present invention are as follows: a seed nucleus biochemical lesion simulated training system, comprising: simulation model, simulation
Radiation detector, control module, the control module receive the simulation model from the simulation radiation detector monitoring
Primary radiation source data, and in response to the primary radiation source data.
It further include electronic mark, it is corresponding with the simulation model, for storing the primary radiation source data.
The simulation radiation detector includes identification module, for identification the electronic mark, and is sent to the control
Module.
The electronic mark is one of radio-frequency signal generator, infrared emittance, electromagnetic wave generator, pattern identification.
The identification module is one of radio frequency receiver, infrared detector, electromagnetic wave monitor, code reader.
The radio-frequency signal generator be RFID tag or from end bluetooth equipment.
The pattern identification is two dimensional code or bar code.
The simulation model includes condition of the injury module, for simulating different faulted conditions.
The condition of the injury module includes surface contamination module, external exposure damage module, Internal radiation injury module, skin radiation damage
Hurt one of module, radiation combined injury module, chemical poison damage module or a variety of.
The simulation model further includes at least one sensor, for monitoring the simulation model stress condition and will monitor
Data are sent to the control module.
It further include display module, for the radiation source data after showing the primary radiation source data and responding.
The simulation model is that an intelligent War injury simulates people.
It further include simulation custodial care facility.
The beneficial effects of the present invention are: determining should using the electronic mark in identification module identification core biochemical lesion module
Amount of radiation entrained by model monitors the operation such as decontamination decontamination by the sensor being arranged on the model, and data feedback is given
Control module, while the Radiance data in response to initially extracting, and the data are shown on display module, pass through electronics mark
Know and different radiation injury data are written, can not only simulate the different radiation conditions of the injury, it is biochemical to practice a variety of cores convenient for medico
Damage the treatment of the condition of the injury, it is thus also avoided that true radiation, it is safer.
Detailed description of the invention
Fig. 1 is the operation principle schematic diagram of core biochemical lesion simulated training system of the present invention;
Fig. 2 is the concrete operating principle schematic diagram of core biochemical lesion simulated training system of the present invention;
Fig. 3 is the structural schematic diagram of the embodiment one of core biochemical lesion simulated training system of the present invention;
Fig. 4 is the structural schematic diagram of the embodiment two of core biochemical lesion simulated training system of the present invention;
Fig. 5 is the structural schematic diagram of the embodiment three of core biochemical lesion simulated training system of the present invention;
1 simulation model;1a condition of the injury module;1b sensor;2 simulation radiation detectors;2a identification module;3 control modules;4 electronics
Mark;5 display modules;6 simulation custodial care facilities.
Specific embodiment
As shown in Figures 1 to 5, the present invention provides a seed nucleus biochemical lesion simulated training systems, comprising: simulation model 1,
Radiation detector 2, control module 3 are simulated, control module 3 receives the original of the simulation model 1 monitored from simulation radiation detector 2
Begin radiation source data, and in response to the primary radiation source data.
It further include electronic mark 4, it is corresponding with simulation model 1, for storing primary radiation source data.
Simulating radiation detector 2 includes identification module 2a, for identification electronic mark 4, and is sent to control module 3.
Electronic mark 4 is one of radio-frequency signal generator, infrared emittance, electromagnetic wave generator, pattern identification.
Identification module 2a is one of radio frequency receiver, infrared detector, electromagnetic wave monitor, code reader.
Radio-frequency signal generator be RFID tag or from end bluetooth equipment.
Pattern identification is two dimensional code or bar code.
Simulation model 1 includes condition of the injury module 1a, including surface contamination module, external exposure damage module, Internal radiation injury mould
Block, radiation injury of skin module, radiation combined injury module, chemical poison damage module, for simulating different nuclear radiation injuries
State, such as radiation injury, blast injury, burn, bleeding radiational injury case, for operator carry out decontamination decontamination, wrapping, hemostasis,
The treatments operation such as fixed.
Simulation model 1 further includes at least one sensor 1b, for monitoring 1 stress condition of simulation model and by monitoring data
It is sent to control module 3.
It further include display module 5, for the radiation source data after showing primary radiation source data and responding.
Simulation model 1 can be complete manikin, and such as intelligent War injury simulates people, be also possible to topography knot
Structure, such as the simulated humanbody upper part of the body, the lower part of the body or four limbs.
It further include simulating custodial care facility 6, the physiological parameters such as heart rate, blood pressure, pulse, blood oxygen for monitoring simulation model,
Such as simulate bedside monitor, simulated respiration machine, simulation defibrillator.
Display module 5, control module 3 can integrate and be integrated, and can also be integrated in simulation model 1 and/or simulation spoke respectively
It penetrates on detector 2, such as radiation detector is simulated at computer, hand-held pad or end having a display function.
Electronic mark 4 is corresponding with simulation model 1, stores the primary radiation source data of the simulation model 1, is carrying out simulation instruction
When practicing, the hand-held simulation radiation detector 2 of operator identifies electronic mark 4 by identification module 2a, reads the data of its storage,
And by the output display of primary radiation source data on display module 5, operator carries out simulation model 1 according to the data of display
The treatments such as decontamination decontamination operation, the stress condition of the sensor 1b monitoring treatment operation on simulation model 1, including stress are big
Small, stress time, forced area, force part etc., and by information Real-time Feedback to control module 3, and in response to primary radiation
Source data, with the progress for the treatment of operation, primary radiation source data can also occur to change accordingly, until close to normal range (NR)
Value, then operator can stop the treatment operation of removal radiation.
Different modes, such as teaching, examination, training are also set up by control module 3 to meet the needs of users.
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to embodiments, to the present invention
It is further elaborated, it should be understood that the specific embodiments described herein are merely illustrative of the present invention, is not used to
Limit the present invention.
Embodiment one:
As shown in figure 3, a seed nucleus biochemical lesion simulated training system, comprising: simulation model 1 for one there is complete human body to dissect
The intelligent War injury of structure simulates people;For monitoring the simulation radiation detector 2 of simulation people's nuclear radiation data;Simulation monitoring
Equipment is an analog electrocardiogram patient monitor;
A condition of the injury module 1a is set on intelligent War injury simulation people, in order to simulate different condition of the injury states, the present embodiment is mentioned
For surface contamination module, external exposure damage module, Internal radiation injury module, radiation injury of skin module, radiation combined injury module,
Chemical poison damages six kinds of condition of the injury modules of module, is convenient for changing, and each condition of the injury module 1a has its corresponding electronic mark
4, it using RFID tag, is placed in condition of the injury module 1a epidermis, storage inside primary radiation source data corresponding with condition of the injury module 1a;
Intelligent War injury simulation people also sets up several sensor 1b and is distributed under epidermis, for monitoring each position of simulation people
Stress condition, including stress size, stress time, forced area, force part etc., and by information Real-time Feedback to control module
3, while in response to primary radiation source data, with the progress for the treatment of operation, primary radiation source data can also occur to become accordingly
Change, until then operator can stop the treatment operation of removal radiation close to normal range value;
Simulation radiation detector 2 is handheld device, including identification module 2a, control module 3 and display module 5, wherein identifying mould
Block 2a is RFID reader, and for reading the primary radiation source data stored in RFID tag, display module 5 is original for showing
Changed radiation data after radiating source data and responding;
In addition, intelligent War injury simulation each joint part of people can be freely moved, different position settings can be realized, joint is set
Meter damping makes to move more life-like;
Intelligent War injury simulates people further include:
1) it the circulatory system: is made of device for storing liquid, pump, simulated blood vessel with pumping simulation blood, can not only simulate blood
Circulation, carries out artery and vein puncture, injection, and heart sound, monitoring of blood pressure etc. can also simulate pulse beating, wound hemorrhage, such as neck
Bleeding, four limbs, which break, hurts arterial hamorrhage, condition of the injury module 1a bleeding etc., and pressing can be implemented and wrap up fixed etc. operate of stopping blooding;
2) respiratory system: by have expansion shrink simulated lung, air flue and pump group at, pass through pump control simulated lung expansion and receipts
It contracts to simulate the air-breathing and expiration of human body, while the fluctuating in visible thoracic cavity;Trachea cannula, resuscitation training, pneumothorax, liquid can also be carried out
The operation such as chest;
3) nervous system: intelligent War injury simulation people's pupil analog dissipates big, normal, three kinds of states of diminution, is able to carry out pupil
Hole directly, the inspection of indirect light reflex and physiological reflex, including blink, vomiting, twitch trembling etc.;
4) urinary system: providing men and women's reproduction urinary organ module, replaceable, the training for urethral catheterization operation;
5) aids drug treatment system: in treatment operation, it can recognize drug, and it is anti-according to the correctness of administration to make physiology
It answers;
6) voice system: can be with typing multiple voice, including coughing, shouting and with the dialogue of medical staff etc., can simulate
Feedback during condition of the injury scene and treatment;
It in above system, can be attached respectively with sensor, whether monitoring operation is correct;
Simulation custodial care facility is connected by wirelessly or non-wirelessly mode, plate is touched and simulates bedside monitor, electrocardio, blood can be carried out
The monitoring of the multinomial vital sign such as pressure, pulse, respiratory rate;Defibrillator is simulated, operates completely the same, system with true defibrillator
Defibrillation energy, number can be perceived;Simulation refers to arteries and veins oxygen instrument, can quickly detect blood oxygen saturation;
By control module, can connect touch screen type plate or computer, it is flexible to operation, original case (including simulation
Radiate condition of the injury case, wound condition of the injury case, first aid case etc.) on the basis of, operator can pass through automatic mode or manual mode
It is independently incorporated into the expansion that case carries out case library, carries out simulated training, training is completed, and generation log can be recorded in real time, for operation
Person, which checks, to sharpen understanding.
Embodiment two:
As shown in figure 4, a seed nucleus biochemical lesion simulated training system, comprising: an emulation mould with complete human body's anatomical structure
Type 1, the simulation radiation detector 2 and control module 3 for monitoring nuclear radiation data, electronic mark 4 corresponding with simulation model 1 use
Two dimensional code or bar code are attached at the surface of simulation model 1, and condition of the injury module 1a, respectively surface at three are arranged on simulation model 1
It is infected with module, external exposure damage module and radiation injury of skin module, is all provided under 1 epidermis of simulation model and at condition of the injury module 1a
Sensor 1b is set, simulation radiation detector 2 is hand-held code reader, including identification module 2a and display module 5, is controlled in the present embodiment
Molding block 3 is computer, is electrically connected or is wirelessly connected with simulation radiation detector 2 and simulation model 1 respectively;
Multiple condition of the injury module 1a are set on simulation model 1, can be replaced;
Display module 5 and computer display screen are used equally for the display of radiation data, when control module 3 is computer, simulation
Radiation detector 2 can not include display module 5.
Embodiment three:
As shown in figure 5, a seed nucleus biochemical lesion simulated training system, comprising: a simulation model 1 and one with upper half of human body
Radiation detector 2 is simulated, a condition of the injury module 1a is set on simulation model 1, is radiation combined injury module, it is right with the simulation model 1
The electronic mark 4 answered is to also set up sensor 1b points from end bluetooth equipment, the inside of setting and simulation model 1, simulation model
Be distributed under 1 epidermis of simulation model, simulation radiation detector 2 includes identification module 2a, that is, main side bluetooth equipment, for it is blue from end
The matching of tooth equipment connects and carries out data transmission, and simulation radiation detector 2 further includes a display module 5, should for exporting display
The corresponding nuclear radiation data of human body bust form, simulation radiation detector 2 further includes a control module 3, blue from end for linking
Tooth equipment and main side bluetooth equipment, the operation data of receiving sensor 1b monitoring and in response to the original of human body bust form
Nuclear radiation data, and send the data to display module 5 and shown.
In other embodiments, electronic mark 4 and identification module 2a can also be known using infrared-ray identification, electromagnetic wave
Not, infrared transmitter or electromagnetic wave transmitter are set on simulation model, infrared detector or electricity are set on radiation detector
Magnetic wave monitor presets threshold value and corresponding radiation data, when successful match, then shows corresponding nuclear radiation data.
Claims (13)
1. a seed nucleus biochemical lesion simulated training system characterized by comprising simulation model, simulation radiation detector, control
Module, the control module receive the primary radiation source number of the simulation model from the simulation radiation detector monitoring
According to, and in response to the primary radiation source data.
2. core biochemical lesion simulated training system according to claim 1, which is characterized in that it further include electronic mark, with
The simulation model is corresponding, for storing the primary radiation source data.
3. core biochemical lesion simulated training system according to claim 2, which is characterized in that the simulation radiation detector
Including identification module, the electronic mark for identification, and it is sent to the control module.
4. core biochemical lesion simulated training system according to claim 2, which is characterized in that the electronic mark is radio frequency
One of generator, infrared emittance, electromagnetic wave generator, pattern identification.
5. core biochemical lesion simulated training system according to claim 3, which is characterized in that the identification module is radio frequency
One of receiver, infrared detector, electromagnetic wave monitor, code reader.
6. core biochemical lesion simulated training system according to claim 4, which is characterized in that the radio-frequency signal generator is
RFID tag or from end bluetooth equipment.
7. core biochemical lesion simulated training system according to claim 4, which is characterized in that the pattern identification is two dimension
Code or bar code.
8. core biochemical lesion simulated training system according to claim 1, which is characterized in that the simulation model includes wound
Feelings module, for simulating different faulted conditions.
9. core biochemical lesion simulated training system according to claim 8, which is characterized in that the condition of the injury module includes table
Module is infected in face, external exposure damages module, Internal radiation injury module, radiation injury of skin module, radiation combined injury module, chemistry
One of toxicant damage module is a variety of.
10. core biochemical lesion simulated training system according to claim 1, which is characterized in that the simulation model also wraps
At least one sensor is included, for monitoring the simulation model stress condition and monitoring data being sent to the control module.
11. core biochemical lesion simulated training system according to claim 1, which is characterized in that further include display module, use
Radiation source data after showing the primary radiation source data and response.
12. core biochemical lesion simulated training system according to claim 1, which is characterized in that the simulation model is one
Intelligent War injury simulates people.
13. core biochemical lesion simulated training system according to claim 1, which is characterized in that further include that simulation monitoring is set
It is standby.
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Cited By (6)
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CN110349471A (en) * | 2019-08-07 | 2019-10-18 | 中国人民解放军军事科学院军事医学研究院 | Alpha surface pollution analogy method based on magnetic nano particle |
CN110929689A (en) * | 2019-12-10 | 2020-03-27 | 苏州大学 | Nuclear radiation damage grading system and method based on electromagnetic signal analysis |
CN111308538A (en) * | 2020-03-11 | 2020-06-19 | 江苏超敏科技有限公司 | Detection equipment for simulating radiation environment of space station to damage human body |
CN111445744A (en) * | 2019-01-17 | 2020-07-24 | 天津天堰科技股份有限公司 | Simulated radiation detection device and system |
CN111696416A (en) * | 2019-03-14 | 2020-09-22 | 天津天堰科技股份有限公司 | Medical skill training anthropomorphic dummy |
CN114241873A (en) * | 2020-09-09 | 2022-03-25 | 抚顺抚运安仪救生装备有限公司 | Simulation device for self-rescue mutual-aid training of chemical injury and war injury |
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