Prepositioning anti-offset cardio-pulmonary resuscitation auxiliary robot

Abstract

The invention discloses a pre-positioning anti-deviation cardio-pulmonary resuscitation auxiliary robot which comprises a moving platform, a follow-up self-adaptive precise control magnetic separation type pressing device and a pre-positioning magnetic triggering type cushion layer. A pressing cavity which is through in the front-back direction and is hollow in the bottom wall is formed in the moving platform; a pressing cavity is formed in one side of the movable platform, the follow-up self-adaption precise control magnetic separation type pressing device is arranged in the pressing cavity, a storage cavity is formed in one side of the movable platform, the pre-positioning magnetic trigger type cushion layer is arranged in the storage cavity, and during cardio-pulmonary resuscitation, the pre-positioning magnetic trigger type cushion layer is arranged on the chest of the human body in an adhering mode and arranged under the follow-up self-adaption precise control magnetic separation type pressing device. The invention belongs to the technical field of cardio-pulmonary resuscitation, and particularly provides a pre-positioning anti-offset cardio-pulmonary resuscitation auxiliary robot which is convenient for automatically adjusting the pressing depth according to the body type of a patient, accurately controls the pressing depth, is accurate in pressing and effectively prevents offset.

Description

technical field [0001] The invention belongs to the technical field of cardiopulmonary resuscitation, in particular to a cardiopulmonary resuscitation assistant robot with pre-positioning and anti-offset. Background technique [0002] Cardiopulmonary resuscitation (CPR) is an emergency technique used to save the injured and sick from cardiac and respiratory arrest. Leave any sequelae that affect the patient's quality of life. [0003] Traditional chest cardiopulmonary resuscitation relies on manpower to perform chest compressions, airway opening, artificial respiration and other operations on the patient in sequence. The pressing depth is 5-6 cm, and the pressing frequency is 100-120 times / min. However, in actual operation, the operator often does not stretch his arms straight, resulting in uneven palm force; or due to excessive physical exertion of the operator, frequent There are many reasons such as changing operators, which affect the effect of compression. Too shallow...

AI Technical Summary

Problems solved by technology

[0004] In order to solve the above-mentioned existing problems, the present invention provides a method that is convenient for automatically adjusting the compression depth according to the patient's body shape, and precisely controls the compression depth, which solves the contradictory technical problem that the compression depth should be both deep and shallow, and not only affects the patient's chest Fully press, and at the same time effectively avoid excessive pressing to cause damage to the patient's chest. At the same time, by installing a pre-positioned magnetic trigger pad on the patient's chest in advance, the pre-positioning of the pressing part can be realized. During the operation of the device, the patient's pressing part can be Apply pressure without putting pressure on the non-pressing parts of the patient, which solves the technical defect of existing devices that are prone to deviation due to vibration, and is a pre-positioned and anti-deviation cardiopulmonary resuscitation auxiliary robot that can quickly and effectively perform cardiopulmonary resuscitation on patients

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