Patent Document ID: 20130330698
Application ID: 13493225
Patent Flag: 0

Claim One:
1. A simulator for cardiopulmonary resuscitation (CPR) and defibrillator training, which allows a user to have practical training of CPR and the use of a defibrillator, the simulator comprising: a human body model formed in a similar shape to the external shape of an actual human body; an impact sensor sensing an impact applied to the human body model by the user in a process of identifying consciousness of the human body model; an airway security module installed at a neck part of the human body model so as to seal or open the airway for artificial respiration; a pulse generation module installed at the neck part of the human body model so as to generate carotid artery pulses that the user can sense and to determine whether the user is sensing the pulses by sensing pressure generated by a user's external force; a pupil reflection module installed at a head part of the human body model so as to automatically implement a pupil reaction function by sensing that external light is incident; an artificial respiration module measuring when the user provides artificial respiration to oral and nasal cavity parts of the human body model and the flow rate and speed of air flowing into the human body model, and allowing the user to identify that the human body model is in a revival state through voluntary breathing of the human body model when the user properly provides CPR to the human body model according to a predetermined procedure; a breast pressure module installed in a torso part of the human body model so as to sense the position, depth, speed and frequency of breast pressure performed in various directions by the user; and a defibrillator training module outputting an electrocardiogram signal similar to that generated in an actual human body, protecting electronic circuits in the human body model from an electrical impact generated from a defibrillator device used in a defibrillator training process, and sensing the number of electrical impacts generated from the defibrillator device.