KR101894032B1 - Automatic advanced cardiovascular life support apparatus - Google Patents

Abstract

The present invention relates to an automatic advanced cardiovascular life support (ACLS) apparatus provided with a control device which constructs updated cardiopulmonary resuscitation (CPR) guideline data whenever a CPR guideline is updated, and classifies CPR guideline information included in the updated CPR guideline data to offer the CPR guideline information to an automatic defibrillator, an automatic chest pressing unit, an automatic respirator, and an automatic drug injector; getting the control device to offer corresponding updated CPR guideline information to the automatic defibrillator, the automatic chest pressing unit, the automatic respirator, and the automatic drug injector; and automatically operated according to the offered information. Therefore, the present invention performs ACLS according to the CPR guideline to minimize errors a person could make, is able to solve practical problems of being difficult to educate all the healthcare workers, and immediately provides latest treatment methods to patients according to the frequently updated CPR guideline.

Description

[0001] Automatic ACLS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic cardiovascular life support (ACLS) device, and more particularly, to an automatic cardiovascular life support (CPL) The CPR guideline information to be provided to the automatic defibrillator, the automatic chest compressor, the automatic ventilator, and the automatic drug dispenser so that the control device updates the corresponding CPR guideline information to an automatic defibrillator, An automatic ventilator, and an automatic drug dispenser, which are automatically operated according to the information provided.

Cardiopulmonary resuscitation is an emergency treatment that artificially circulates blood and assists in breathing when a heart attack occurs.

In this way, CPR guidelines for first aid treatment have been developed in various aspects of CPR-related technologies, but there was no technology that could be accurately implemented according to the CPR guidelines that are continuously revised. Much of CPR guidelines are based on training techniques for cardiopulmonary resuscitation to be.

As a typical technique, Korean Patent Registration No. 10-1232869, which is a simulator for CPR and defibrillator training, is a simulator for a CPR and defibrillator training in which a user can practice a CPR and a method of using a defibrillator, A human body model having a shape similar to the external shape, an impact sensor for detecting an impact applied to the human body by the user in the process of confirming the consciousness of the human body model, A pulse generating module for generating a carotid artery which is installed on the neck of the human body and which can be palpated and capable of sensing the pressure by the external force of the user and determining whether the pulse is palpable; It is installed on the head and detects the incident of external light. , And the amount and flow rate of the air introduced into the human body when the artificial respiration is performed on the oral part and the nasal part of the human body are measured and the human body model is suitably subjected to cardiopulmonary resuscitation according to a predetermined process A ventilation module for allowing the user to confirm that the human body model has been revived by spontaneous breathing of the human body model, a position of the chest compression which is installed in the body part of the human body model in various directions by the user, A chest compressing module for sensing depth, speed and frequency, and an electrocardiogram signal similar to an electrocardiogram signal generated in a real human body and outputting electric circuits inside the human body from an electric shock generated from a defibrillator used in a defibrillator training process Electricity generated from the defibrillator while protecting it Defibrillation consists of a training module that detects the number of times the price occurs.

As described above, the conventional technique is a technique related to simulation for cardiopulmonary resuscitation, and since the CPR guideline needs to be trained again, there is a problem that the revised CPR guideline can not be immediately applied.

Finally, since the CPR guidelines are revised from time to time, even physicians who are well trained are not always able to follow the latest guidelines, and it is very difficult to physically or paramedically perform full CPR.

Patent Document 1. Korean Patent Registration No. 10-1232869 'Simulator for CPR and defibrillator training'

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to enable an advanced cardiovascular life support (ACLS) immediately in accordance with the CPR guidelines as amended from time to time.

According to an aspect of the present invention, there is provided an automatic ACLS device including a receiver for receiving updated CPR guideline data, a CPR guideline information generator for automatically performing CPR from the CPR guideline information included in the updated CPR guideline data, A control unit including a first analyzing unit for classifying CPR guideline information for performing CPR guideline information, a storage unit for storing the classified CPR guideline information, and a transmitting unit for transmitting the stored CPR guideline information; An automatic defibrillator provided in the CPR guideline information classified by the CPR guideline information storage unit to receive defibrillation information from the CPR guideline information and to be automatically operated according to the provided defibrillation information and to be operated under the control of the first control unit; And a second controller which receives chest pressure information from the classified and stored CPR guideline information through a transmission unit and controls the chest pressure information to be automatically operated according to the provided chest pressure information, tile; And a third controller for controlling the CPR guideline information to be automatically operated according to the received artificial respiration information by receiving artificial respiration information from the classified CPR guideline information through a transmission unit and an automatic ventilator Wow; And a fourth control unit for receiving the drug input information from the classified and stored CPR guideline information through a transmission unit and automatically controlling the operation according to the provided drug input information, ; And a monitoring device in which the automatic defibrillator, the automatic chest compressor, the automatic ventilator, and the automatic drug dispenser are performed is displayed on the screen.

As described above, the present invention has the effect of minimizing errors that can be prevented by a person by implementing ACLS according to the CPR guideline, solving realistic problems that are difficult to educate all medical personnel, By following the guideline, it is possible to provide the patient with the latest treatment immediately.

1 is a block diagram of an automatic ACLS apparatus according to an embodiment of the present invention;
2 is a block diagram of a control device according to an embodiment of the present invention.
3 is a block diagram of another control apparatus according to an embodiment of the present invention.

Best Mode for Carrying Out the Invention Hereinafter, a configuration and an operation of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram of an advanced cardiovascular life support (ACLS) device according to an embodiment of the present invention. The automatic ACLS device 10 includes a controller 100, an automatic defibrillator 200, An automatic ventilator 400, an automatic drug dispenser 500, and a monitoring device 600.

2, the control apparatus 100 includes a receiving unit 110, a first analyzing unit 120, a storing unit 130, and a transmitting unit 140.

3, the controller 100 may include a second analyzer 150 in the receiving unit 110, the first analyzing unit 120, the storing unit 130, and the transmitting unit 140, .

The receiving unit 110 of the control device 100 receives the updated CPR guideline data.

For example, cardiopulmonary resuscitation (CPR) guidelines are revised from time to time, so doctors who are well trained will always have difficulty implementing the latest CPR guidelines.

As described above, whenever the CPR guideline is revised every so often, the CPR guideline database is stored in the database and the receiving unit 110 receives the latest CPR guideline data updated from the server.

The first analysis unit 120 of the control device 100 classifies the CPR guideline information to automatically perform CPR from the CPR guideline information included in the updated CPR guideline data.

For example, the first analysis unit 120 of the control device 100 includes CPR guideline information in the updated CPR guideline data. The CPR guideline information may include information related to the automatic defibrillator 200, Information relating to the automatic chest compressors 300, information relating to the automatic ventilator 400, information relating to the automatic drug injector 500, and performs analysis to classify each information.

More specifically, the CPR guideline information is classified so as to be transmitted to the automatic defibrillator 200 when information related to the automatic defibrillator 200 is updated, and the automatic defibrillator 300, And transmits information to the automatic ventilator 400 when the information related to the automatic ventilator 400 is updated from the CPR guideline information to the automatic ventilator 400. [ And classifies the information to be transmitted to the automatic drug injector 500 when the information related to the automatic drug injector 500 is updated from the CPR guideline information.

The storage unit 130 of the control device 100 stores the classified CPR guideline information.

The transmitting unit 140 of the control device 100 transmits the stored CPR guideline information.

For example, the transmitter 140 transmits CPR guideline information classified and stored, that is, update information related to the automatic defibrillator 200, to the automatic defibrillator 200, and the update information associated with the automatic chest compressor 300 And transmits the update information associated with the automatic ventilator 400 to the automatic ventilator 400 and transmits the update information associated with the automatic drug injector 500 to the automatic drug injector 500 .

Therefore, since the CPR guidelines are revised from time to time, it is analyzed by software that medical personnel and paramedics are unable to perform CPR perfectly, and the CPR related software It works to minimize errors.

The automatic defibrillator 200 includes a first controller for receiving updated defibrillation information from the classified and stored CPR guideline information through the transmitter 140 and automatically controlling operation of the defibrillator according to the provided defibrillation information, And is operated under the control of the first control unit.

That is, the automatic defibrillator 200 is a first-aid device used to convert ventricular fibrillation or pulseless ventricular tachycardia to perfusion rhythm. When the defibrillator 200 receives updated defibrillation information from the transmission unit 140 , And the first controller is included in the existing defibrillation information so that the existing defibrillation information is deleted or stored separately and operated based on the provided updated defibrillation information.

At this time, the first controller acts to set or operate the automatic defibrillator to operate through the updated information, thereby minimizing an error that may be caused by a person.

The automatic chest compressing unit 300 includes a second control unit for receiving chest compression information from the classified and stored CPR guideline information through the transmission unit 140 and automatically controlling the chest compressing information to be operated according to the provided chest compression information And is operated under the control of the second control unit.

That is, the automatic chest compressors 300 are used to deliver sufficient blood flow to the heart and the brain during cardiopulmonary resuscitation. When the updated chest compression information is received from the transmitter 140, Or stored separately, and is operated based on the updated updated chest pressure information.

At this time, the second controller operates to set or operate the automatic chest compressors 300 through the updated information, thereby minimizing an error that may be caused by a person.

The automatic ventilator 400 includes a third controller for receiving artificial respiration information from the classified and stored CPR guideline information through the transmission unit 140 and controlling the artificial respiration information to be automatically operated according to the received artificial respiration information, And is operated under the control of the third control unit.

That is, the automatic ventilator 400 is an apparatus for supplying oxygen and maintaining carbon dioxide emission during CPR, and when the updated ventilation information is received from the transmission unit 140, And a third controller is included so as to be operated based on the updated artificial respiration information provided separately.

At this time, the third controller operates to set or operate the automatic ventilator 400 through the updated information, thereby minimizing an error that may be caused by a person.

The automatic drug injector 500 includes a fourth control unit for receiving drug input information from the classified and stored CPR guideline information through the transfer unit 140 and automatically controlling the drug input information according to the supplied drug input information, And is operated under the control of the fourth control unit.

That is, the automatic drug dispenser 500 is an apparatus for automatically intravenously administering medicines, for example, epinephrine and amiodarone, to be administered during CPR. When the updated drug injection information is received from the transfer unit 140, The existing drug input information is deleted or stored separately, and the fourth control unit is included to operate based on the provided updated drug input information.

At this time, the fourth control unit operates to set or operate the automatic drug dispenser 500 to operate through the updated drug input information, thereby minimizing an error that may be caused by a person.

The monitoring device 600 displays the processes of the automatic defibrillator 200, the automatic chest compressors 300, the automatic ventilator 400 and the automatic drug dispenser 500.

That is, the monitoring device 600 may be configured to perform the steps of the automatic defibrillator 200, the operation of the automatic chest compressor 300, the operation of the automatic ventilator 400, As each of the performance processes is displayed on the screen, the medical staff monitors and acts to take appropriate measures for each situation.

It is also preferable that a storage device for storing all the information performed in the automatic defibrillator, the automatic chest compressors, the automatic ventilator, and the automatic drug dispenser in units of seconds, minutes, and hours is further provided.

In this way, even if a skilled person, as well as an untrained person, carries on a personal difference or the same person can not rule out the difference due to the condition and environment of the day, the quality of CPR The present invention can provide all of the standardized CPR according to the latest CPR guidelines and record all the processes in seconds, minutes, and hours.

Thus, the recorded data clarifies much of the CPR research that has not yet been clarified and serves to make great progress.

The server may further include a server for providing the updated CPR guideline data so as to provide CPR guideline data to the other control apparatus having the same configuration in addition to the control apparatus.

In other words, the automatic ACLS system 10 according to the present invention provides CPR guideline data through a server even if distributed in a variety of locations in hospitals or in other hospitals scattered sporadically, CPR guidelines that are updated from time to time to perform CPR.

The receiving unit 110 may further include a second analyzer 150 for determining whether the received version of the updated CPR guideline data is the same.

For example, as shown in FIG. 3, if the second analysis unit 150 is further included, it is determined whether the CPR guideline data is updated through the version of the CPR guideline, thereby reducing the calculation amount of the controller 100 And more efficiently controls the operation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is not used to limit the scope.

Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10: Automatic ACLS device 100: Control device
110: receiving unit 120: first analyzing unit
130: storage unit 140:
150: second analyzing unit 200: automatic defibrillator
300: Automatic chest compressors 400: Automatic ventilator
500: Automatic drug dispenser 600: Monitoring device

Claims (4)

A first analyzing unit for classifying CPR guideline information to automatically perform CPR from the CPR guideline information included in the updated CPR guideline data, a first analyzing unit for classifying the CPR guideline information, A control unit including a storage unit for storing the guideline information, and a transmission unit for transmitting the stored CPR guideline information;
An automatic defibrillator provided in the CPR guideline information classified by the CPR guideline information storage unit to receive defibrillation information from the CPR guideline information and to be automatically operated according to the provided defibrillation information and to be operated under the control of the first control unit;
And a second controller which receives chest pressure information from the classified and stored CPR guideline information through a transmission unit and controls the chest pressure information to be automatically operated according to the provided chest pressure information, tile;
And a third controller for controlling the CPR guideline information to be automatically operated according to the received artificial respiration information by receiving artificial respiration information from the classified CPR guideline information through a transmission unit and an automatic ventilator Wow;
And a fourth control unit for receiving the drug input information from the classified and stored CPR guideline information through a transmission unit and automatically controlling the operation according to the provided drug input information, ; And
Wherein the automatic defibrillator, the automatic chest compressor, the automatic ventilator, and the automatic drug dispenser are each performed by a monitoring device displayed on the screen.
The method according to claim 1,
Further comprising a storage device for storing all the information performed by the automatic defibrillator, the automatic chest compressors, the automatic ventilator, and the automatic drug dispenser in units of seconds, minutes, and hours and storing the data.
The method according to claim 1 or 2,
Further comprising a server for providing the updated CPR guideline data to provide CPR guideline data to other control devices having the same configuration in addition to the control device.
The method of claim 2,
Further comprising a second analysis unit for determining whether the version of the updated CPR guideline data received at the receiving unit is the same.

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