"Grisha-01" a robot simulator for training CPR skills. Torso
M4025
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Short description:
The robot simulator is designed for training first aid skills and control the quality of students' training. The simulator presents an image of a 12-year old boy. The head and ventral part of the body are made of materials visually and tactilely resemble the tissues of the human body. Open nostrils provide realistic squeezing of the wings of the nose. It is possible to conduct training with the help of software installed on the user's computer. The simulator is supplied in clothes and in a transportation bag, equipped with sanitary napkins for artificial lung ventilation, masks with a one-way valve, as well as batteries and a charger for them.
The robot simulator has the following precisely identified anatomical orientation points for first aid:
sternum muscles of the neck, clavicle and cartilage of the larynx - to determine the pulse on the carotid artery;
costal arches and xiphoid process - to determine the location of the application of precardial shock and indirect heart massage.
The simulator robot allows practicing the skills of first aid in clinical death (method 30: 2, precardial shock).
The simulator fixes such common mistakes as:
insufficient depth of compression;
insufficient volume of inspiration;
improper head position during artificial lung ventilation.
Description, purpose, method of application:
Functional features of the robot simulator
sternum muscles of the neck, clavicle and cartilage of the larynx - for training to determine the pulse on the carotid artery;
costal arches and xiphoid process - to determine the location of precardial shock and application of indirect heart massage;
the simulator allows you to practice the skills of assisting in clinical death by the 30: 2 method, and it also provides a possibility of performing a precardial stroke;
with sufficient strength and depth of pressing of an indirect heart massage, a pulse wave appears on the carotid artery;
with an effective breath of artificial respiration, the chest rises;
in case of a fracture of the xiphoid process, the red indicator of the "broken xiphoid process" lights up and an audible signal sounds;
the effectiveness of resuscitation is determined by the narrowing of the pupils and the appearance of an independent pulse on the carotid artery;
the choice of regimen and resuscitation is accompanied by voice messages;
mode selection and volume control can be carried out using the buttons on the robot simulator;
complete independence from external power supplies and remote controllers, monitors;
A possibility to control the robot using specialized software;
work via a wireless communication channel or via a USB cable, with specialized software installed on the user's computer;
the software includes a theoretical first aid course, including video tutorials, photo materials, theoretical information and testing with a possibility of saving the results;
erroneous actions during practical exercises are recorded by software immediately. This function allows you to instantly make adjustments to the student's actions.
Operating modes of the simulator
First mode. The state of clinical death.
For each effective pressure of indirect heart massage, a pulse wave appears on the carotid artery. With each effective breath of artificial respiration, the chest rises. With successful resuscitation, the simulator will narrow the pupils and an independent pulse will appear on the carotid artery. If there were no mistakes during the resuscitation process, the simulator will come to life after 2 minutes, while the pulse on the carotid artery remains stable for one minute, and then the heart stops again. When mistakes are made, the recovery time increases. Resuscitation is performed using the 30: 2 method.
The second mode. Precardial stroke.
The stroke should be applied with the edge of a palm, clenched into a fist, just above the xiphoid process covered with two fingers of the other hand. The elbow of the striking hand should be directed towards the victim's abdomen. After the stroke, it is necessary to monitor the pulse on the carotid artery.
Software
Specialized software presents an educational and practical system. The system includes a theoretical course and practical exercises.
The theoretical course includes a video tutorial, photo materials, theoretical information and testing with a possibility of saving the results.
Practical exercises are accompanied by animation of the actions performed on the computer screen, also all errors are recorded, and it is possible to save the results of the lesson in a database for each student individually. All actions are recorded in on-line mode and allow you to quickly adjust the student's work.
The software is developed based on the Windows operating system with an intuitive interface that does not require additional training for users with any level of training.
After installing the program on the user's computer, the simulator can be connected via a wireless communication, channel (if technical equipment of the user's computer allows) or using a USB cable included in the contents of delivery.
Contents of delivery:
1. Robot-simulator 2. Sanitary napkins for mechanical ventilation (100 pcs.) 3. Mask with one-way valve (3 pcs.) 4. Turtleneck 5. Transportation bag 6. Set of batteries (size AA) (4 pcs.) 7. Charger 8. USB cable 9. Digital media software