KR20110115994A - Emergency rescue assisting devices and the method - Google Patents

Abstract

The present invention relates to an emergency aid and a method using the same.
The configuration of the present invention, the chest compression sensor unit 10; The biosignal sensor unit 20 and the respiratory signal sensor unit and the integrated chest compression tuning device unit 30 is composed of.
The present invention of such a configuration, when the emergency relief situation such as acute cardiac arrest, put the chest compression device on the chest compression site of the patient to perform the compression to adjust the intensity and cycle of compression, the patient's compression is In order to precisely measure the intensity of the compression and to adjust the intensity and period of the compression, a load cell sensor is used for the measurement of the compression, a rhythm regenerative listening speaker that leads the period of the compression, The chest, which includes a display unit and a sound reproducing unit so that the operator maintains the same pressure, but the eye and ear can check the cycle and intensity of the compression so that the operator can apply the compression without feeling excessive strain while feeling softer. Compression intermediary unit and at the same time fit between both lips to check the patient's oral breathing In general, an index finger and a finger at the same time also the kkeutmadi respiration signal sensing part for sensing in real time whether breathing is to return
The present invention relates to an emergency aid and an apparatus for performing emergency relief through a biosignal sensor that detects whether a biosignal generated in a living body during chest compression is also recovered by measuring blood oxygen concentration and pulse rate.

Description

Emergency rescue aids and emergency rescue methods using the same

The present invention relates to the field of first aid and to an emergency aid and a method using the same. More specifically, the present invention relates to assistive devices required for rescue of emergency measures and methods of using the same when emergency relief situations such as acute cardiac arrest patients occur.

In general, in the case of emergency rescue situations such as acute cardiac arrest, first aid for resuscitation requires cardiopulmonary resuscitation to provide the blood supply of oxidized blood to the body instead of the heart and lungs to patients who have stopped heartbeats. It is a series of acts to revive cardiopulmonary function through chest compressions and artificial respiration.

In order for spontaneous blood circulation to occur during CPR, the perfusion pressure of the coronary arteries must be maintained above 20 mmHg. However, according to the conventional method of repeatedly pressing only the sternum, only about 10 to 20% of the normal heart blood flow is induced, so that the spontaneous circulation of blood flow is not sufficient. Therefore, various CPR devices have been proposed to increase blood flow. In particular, the chest compression coordinator attached to the educational doll commonly used for chest compression is a human-type model, which is a practice model of human replacement type, which is very different from the actual human structure, and is made relatively weak for training. There is a problem that the response when the situation occurs is inadequate, and more importantly, the intensity and frequency of the actual compression during the actual situation occurs, and other chest compressions are applied to the chest to determine what and how the operator understands and judges the patient's condition. There are a number of problems that need to be addressed during the chest compression process, such as whether pressure should be maintained.

Therefore, the technical problem of the present invention is to solve such a conventional problem, the present invention, the compression strength and frequency cycle of the chest compression coordinator is accurate and appropriate when the actual implementation and the patient's condition is chest compression loss In addition to monitoring and judging whether emergency relief measures are being properly performed, it is possible to assist in proper follow-up of medical institutions when the patient is handed over to medical institutions in the future. First aid aids and methods are used to provide appropriate and effective relief for emergency aid activities.

Therefore, according to the present invention to solve the problems of the technical problem through the following problem solving means.

The present invention for solving the above problems of the present invention, by using a load cell sensor for the measurement of the pressure so as to adjust the strength of the compression by accurately measuring the strength of the pressure, the pressing portion to apply the pressure The chest compression coordinator unit includes a display unit and a sound reproducing unit so that the operator maintains the same pressure but can check the cycle and intensity of the compression with the eyes and ears so that the operator can apply the pressure without feeling excessive strain. By means of configuration features, in order to detect the respiratory conditions of intermediate patients undergoing chest compressions, the operator frequently approaches the patient's nose and mouth to detect the patient's breathing. It is not easy to judge this condition, especially when it is important to save the patient's life. It is even more so. Therefore, another problem solving means according to the present invention by attaching a sensor for detecting the respiratory air flow through the nose and mouth to the patient's nose and mouth respiratory signal sensor for detecting the patient's respiratory condition in real time When the patient's breathing is returned and the heartbeat resumes slightly, the signal of the living body, in particular, the blood saturation concentration and heart rate change occurs, so as to monitor the biological signal sensor as another solution.

As described above, the present invention is an important situational action to save lives when an emergency relief situation occurs through the above-mentioned problem solving means, and assists the relief activity of the operator appropriately to carry out emergency relief activities anytime, anywhere. To do it.

1 is an overall structural diagram illustrating the overall configuration of an embodiment of the present invention.
Figure 2 is a schematic diagram of the main part for the operational configuration of the present invention.
3 is a diagram illustrating a coupling structure of the pressure sensor unit in the central processing unit.
4 is a block diagram illustrating the operational configuration principle of the present invention.
Figure 5 is a method procedure showing an emergency relief procedure method according to the present invention.

Means for Solving the Problems of the Invention To solve the above technical problem, first, when an emergency relief situation such as acute cardiac arrest occurs, the pressure is placed on a chest compression sensor with a chest compression sensor on a chest compression site of a patient. It is a device that coordinates the intensity and period of compression.The load cell sensor is used to measure the compression so that the intensity of the compression can be precisely measured by adjusting the intensity of the compression as the patient's compression is applied. Use the rhythm reproducing hearing speaker to lead the rhythm reproduction, and check the cycle and intensity of the pressure with the eyes and ears so that the operator can maintain the same pressure at the pressurizing part to apply the pressure, but apply the pressure without excessive tension with a softer feeling. Chest compression coordinator unit 10 and the patient characterized in that it comprises a display unit and a sound reproducing unit It is worn on the finger at the same time as the breathing signal sensor unit 30 that detects the breathing of the patient in the middle of the compression in the middle of the compression, and measures the blood oxygen concentration and the pulse rate. Characterized by the major devices in the configuration to perform emergency relief through the bio-signal sensor unit 20 to detect whether the recovery is beating again.

Hereinafter, a preferred embodiment of the present invention including the above components will be described in more detail with reference to the accompanying drawings.

1 is an overall structural diagram illustrating the overall configuration of an embodiment of the present invention.

First, the chest compression coordination unit 10 including the chest compression sensor unit which closely adjusts the pressure to the patient's chest, monitors the pressure applied, and rehabilitates the heart rhythm, is a representative state of the patients' symptoms when acute cardiac arrest occurs. By stopping, the respiratory volume is sharply reduced, which reduces the amount of air oxygen inhaled into the body, which slows and weakens the heartbeat. In this process, chest compressions are a minimal relief to the dying life that seeks to inhale some oxygen into the heart rather than save the heart. It is very helpful to know the patient's situation whether the heartbeat is in the recovery process, in fact, the general public is a life-saving act that can be carried out through the educational acquisition itself, so in reality, it is difficult to replace the actual situation in the present invention. The bio-signal sensor unit 20 provided by the patient informs the chest pressure coordination unit 10 of the blood oxygen concentration and heart rate of the patient, and the breathing signal sensor unit 30 monitors the breathing state of the patient's exhalation and breathes. Monitoring whether the compression or recovery of breathing through the chest compression device unit (10) This will enable more effective and safe chest compressions to save lives.

Figure 2 is a schematic diagram of the main part for the operational configuration of the present invention.

The main configuration for the present invention is the first chest compression coordinator unit 10 with a built-in chest compression sensor for detecting the compression of the chest, the biosignal sensor 20 for detecting blood oxygen concentration and heart rate, and the patient's breath inhalation It is divided into a breathing sensor unit 30 for detecting a breathing state of the. More specifically, the chest compression coordinator unit 10 is the upper and lower plastic cover (101,102), the patient's chest skin contact silicon pad portion 104, the lower cover 101 is a power cover that is used two AAA type 103 ), The lower cover portion 101 is fixed to the bottom of the load cell sensor through the bolt fixing part with a bolt, the lower cover 101 side of the bio-signal sensor 20 and the breathing sensor used when using a wired There are sensor connector terminals 105 and 106 for receiving the signal of the unit 30 by wire, and the pressing unit 111 for applying pressure by collecting both hands and the display unit 107, 108, 109 for informing the result when lead or pressing is applied. ) And the volume generator 112, which consists of a power supply unit 110 that regulates power, and additionally, in the biosignal sensor unit 20 and the respiratory sensor unit 30, the biosignal sensor unit 20 has blood in it. To measure oxygen concentration (SPO2) and heart rate The light emitting sensor in the 600 to 940nm frequency band and the receiving light sensor receiving the light emitting signal are paired to form a pair of pick-up sensor units, and the respiratory sensor unit 30 is a differential pressure measuring air flow. It is characterized in that the breath sensor 30 of the type using a flowmeter (flowmeter) of the type (flowmeter) or a turbine (turbine flow) type.

3 is a diagram illustrating a coupling structure of the pressure sensor unit in the central processing unit.

The load cell pressurizer 113 is fixed to the load cell 24 by using the presser bolts 114 and 115 and fixed to the bottom of the plastic cover 101, and the press slide unit 111 is coupled to the presser 113. Top cover portion 102 is coupled to. On the other hand, the display unit 116 fixed to the lower cover unit 101 for the mechanical operation as described above, the numerical value display unit 108, the graph display unit 109, the power switch unit 110 showing the pressure intensity and the value of the bio-signal , The consonant sound generator 116 and the respiratory signal display unit 107.

4 is a block diagram illustrating the operational configuration principle of the present invention.

Referring to this block diagram illustrating the flow of the operation according to the present invention, the power supply of the internal power source (H4) is a central processing unit (H1) using two AAA to generate the compression cycle volume through the volume generator (H3) According to the pressure applied to the chest compression sensor unit (S1) to the intensity of compression, the biosignal sensor (S2) blood oxygen concentration (SPO2) and heart rate (Heart Rate) and the respiratory sensor (S3) It detects and displays a signal through the display unit (H2), and the signal generated from the bio-signal sensor unit (S2) and respiratory sensor unit (S3) is transmitted directly to the central processing unit (H1) via a wire, and transmitted data Is stored in the memory storage unit H5, and receives the signals of the two sensor units through the wireless data transmitter H6, and wirelessly transmits all signals and information data to the outside.

Figure 5 is a method procedure showing an emergency relief procedure method according to the present invention.

First, the emergency relief situation such as acute cardiac arrest (A) and the emergency rescue request (B) such as 119 and 1339 urgently when the situation occurs, and then turn on the chest compression coordinator and secure the patient's airway. Inserting a breathing sensor into the patient's mouth and wearing a bio-signal sensor at the end of the patient's forefinger (C), monitoring the signal (D) and applying pressure (E), the compression of the chest compression Repeat the cycle in the order of 30 compressions and 2 ventilations according to the lead time and voice guidance. For voice guidance, the rhythm of the beat and voice guidance such as “compression” and “breathing” are used to facilitate emergency response of non-experts. Check for availability in the middle of phase E and continue until an ambulance or emergency doctor arrives.

As described above, an embodiment of the emergency aid and the method using the same by the chest compression coordination apparatus for cardiopulmonary resuscitation according to the present invention will be described. Although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the invention to be described below by those skilled in the art to which the present invention pertains. Many modifications and variations are possible within the scope of the claims.

Chest compression coordination unit (10) Bio-signal sensor unit (20)
Plastic cover (101, 102) above and below the breathing signal sensor unit (30)
Silicon pad part 104, bottom cover 101
Power Supply Cover (103) Sensor Connector Terminals (105, 106)
Pressing section 111 Display section (107, 108, 109)
Volume generator 112, power supply unit 110
Load Cell Presser (113) Presser Bolts (114,115)
Load Cell 24 Pressing Slide Part 111
Display unit 116 numerical value display unit 108
Graph display unit 109 Power switch unit 110
Time signature generator 116 Breathing signal display unit 107

Claims (10)

In the auxiliary device and method required for emergency rescue measures required in case of emergency patient such as acute cardiac arrest, a bio-signal sensor unit for detecting the biological signal of the patient;
Respiratory sensor unit for detecting the breathing state of the patient;
Chest compression sensor unit for performing the necessary chest compressions; And an emergency relief assistance device comprising a central processing unit for controlling and monitoring the sensor and performing emergency relief. According to claim 1, the bio-signal sensor unit for detecting the bio-signal of the patient detects the real-time blood oxygen saturation concentration (SPO2) and heart rate to send a signal to the central processing unit via wired or wireless and an emergency relief aid using the same Relief method. According to claim 1, the breathing sensor unit for detecting the breathing state of the patient is inserted into the patient's mouth for breathing apparatus, the type of air flow sensor that detects the amount of breath is detected in the form of wires and wireless to the central processing unit. Emergency relief aids that can transmit signals and emergency relief methods using the same. The air flow sensor for detecting the respiratory volume to be used according to claim 3, wherein any one using a differential pressure sensor or a turbine sensor can be used, and an emergency relief assistance device using the same. According to claim 1, the chest compression sensor for compressing the chest compression emergency relief device characterized in that the integrated unit built in the central processing unit and an emergency relief method using the same. According to claim 5, the chest compression sensor unit for measuring the compressive strength to compress the sternum of the patient using an emergency relief assistance device using a load cell sensor and an emergency relief method using the same. The system of claim 1, wherein the central processing unit comprises: an LCD and an LED display unit; A volume generator for controlling the buzzer and the speaker; Power supply; Memory storage unit for storing the data received from the bio-signal sensor and the breathing sensor; A wireless data transmitter for transmitting and receiving a wireless signal; Emergency relief aid characterized by such a configuration and an emergency relief method using the same. According to claim 7, the display unit is displayed as an integer number of compression strength 000Kgram.f, SPO2 00%, heart rate 000bpm, and the breathing situation using the two-color LED to indicate the presence of breathing aid and Emergency relief method using this. The method of claim 1, wherein the central processing unit and the two sensor units (biological signal sensor and respiratory sensor unit) for transmitting and receiving data signal emergency first aid device capable of using a wired or wireless method and an emergency relief method using the same. According to claim 1, the sound volume generation unit of the central processing unit reproduces the recorded voice command with a strong buzzer, so that the emergency relief aid for more clearly chest compressions and an emergency relief method using the same.

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