TWM590302U - Cloud emergency ambulance medical system - Google Patents

Abstract

A cloud emergency medical treatment system includes an automatic cardiopulmonary resuscitation device, an injury information device, and a cloud database platform. The automatic cardiopulmonary resuscitation device includes a support unit, a control unit connected to the support unit, a pressing unit disposed on the support unit and electrically connected to the control unit, and an energy measurement device electrically connected to the control unit A measurement unit for the vital signs of the user, and a first transmission unit electrically connected to the control unit and capable of transmitting the data measured by the measurement unit. The inspection information device can receive the information transmitted by the first transmission unit and perform preliminary inspection classification, and the cloud database platform can receive the integrated information of the inspection information device.

Description

Cloud emergency medical system

The present invention relates to a comprehensive rescue system, especially a cloud-based emergency rescue medical system.

Cardiopulmonary resuscitation (CPR) is a first-aid method to maintain the brain function of patients with cardiac arrest until the patient recovers breathing and blood circulation. Because 4-6 minutes after cardiac arrest, the brain or other important organs and tissues It causes irreversible injury, so the patient needs to be first aided within a short time of cardiac arrest, but the rescuer needs professional training in advance to properly perform cardiopulmonary resuscitation in first aid.

Because cardiopulmonary resuscitation requires 100 to 120 compressions per minute on the chest, and the strength needs to be added or subtracted according to the patient's body, when the ambulance staff performs the compression action for a long time, it is easy to fatigue and lead to insufficient pressure channels and the number of compressions decreases. Therefore, when performing cardiopulmonary resuscitation, two ambulance staff will take turns to prevent fatigue and lead to poor CPR rescue. However, Taiwan's medical staff is increasingly insufficient. If there are multiple patients present, the ambulance staff will use the patient's injury It is important to perform emergency treatment without giving each patient immediate and corresponding treatment.

In addition, before the patient arrives at the hospital, the traditional ambulance will first classify the patient's inspection. These inspection records can speed up the diagnosis time after the patient arrives in the hospital to grasp the patient's golden rescue time, but the traditional ambulance and hospital The internal system has not been integrated, and the hospital emergency department personnel cannot actually understand the situation of the patients on the spot, and the two sides can only communicate by radio, and there is no good communication channel.

In view of this, the purpose of this new model is to provide a cloud emergency medical system that can integrate information into the cloud.

The new cloud emergency medical treatment system includes an automatic cardiopulmonary resuscitation device, an injury information device, and a cloud database platform. The automatic cardiopulmonary resuscitation device includes a support unit, a control unit connected to the support unit, a pressing unit disposed on the support unit and electrically connected to the control unit, an energy connected to the control unit and energy measurement life The symptom measurement unit, and a first transmission unit electrically connected to the control unit and capable of transmitting the data measured by the measurement unit. The inspection information device can receive the information transmitted by the first transmission unit and perform preliminary inspection classification, and the cloud database platform can receive the integrated information of the inspection information device.

Another technical means of the present invention is that the inspection information device includes an arithmetic unit and a second transmission unit electrically connected to the arithmetic unit, and the second transmission unit receives the information transmitted by the first transmission unit And then through the arithmetic unit to perform arithmetic classification.

Another technical means of the present invention is that the support unit includes a hollow ring-shaped base, a support base extending upward from the base, and a detachable fixing belt provided on the base. .

Another technical means of the present invention is that the pressing unit includes a drive motor disposed on the support base and electrically connected to the control unit, and a drive motor driven by the drive motor to move up and down relative to the support base Press the piece.

Another technical means of the present invention is that the pressing unit further includes a strain gauge provided on the driving motor to detect the pressure value.

Another technical means of the present invention is that the measurement unit includes a heart rate sensing module electrically connected to the control unit, and a blood pressure measurement module electrically connected to the control unit.

Another technical means of the present invention is that the heart rate sensing module has at least one electrode patch for measuring a user's pulse or heartbeat, and a heart rate sensor electrically connected to the electrode patch.

Another technical means of the present invention is that the automatic cardiopulmonary resuscitation device further includes a gas supply unit electrically connected to the control unit, including a pressurizing motor, a powerful fan electrically connected to the pressurizing motor, and a delivery Air supply mask for the gas generated by the powerful fan.

Another technical means of the present invention is that the support unit further includes a handle disposed on the support base.

Another technical means of the present invention is that the operation unit has a random forest classifier, and performs operation classification on the information transmitted by the first transmission unit by a random forest classification method.

The beneficial effect of this new model is that it can not only classify the severity of the injury before arriving at the hospital, so that the medical staff can now perform related first-aid measures based on the difference in severity, and the classification result is related to the life of the injury The symptom information is transmitted to the cloud medical platform, so that the injured can be diagnosed and treated immediately after arriving at the hospital, saving the time for post-hospital diagnosis and improving the survival rate of the injured.

Relevant patent application features and technical content of the new model will be clearly presented in the following detailed description of the preferred embodiment with reference to the drawings. Before making a detailed description, it should be noted that similar elements are represented by the same number.

Referring to FIG. 1, it is a preferred embodiment of the new cloud-based emergency medical treatment system, including an automatic cardiopulmonary resuscitation device 2, an injury information device 3, and a cloud database platform 4.

The automatic cardiopulmonary resuscitation device 2 includes a support unit 21, a control unit 22 connected to the support unit 21, a pressing unit 23 disposed on the support unit 21 and electrically connected to the control unit 22, and an electrical connection to the The gas supply unit 24 of the control unit 22, a measurement unit 25 electrically connected to the control unit 22 and capable of measuring vital signs, and a measurement unit 25 electrically connected to the control unit 22 and capable of measuring the measurement unit 25 The data is transmitted by the first transmission unit 26.

Referring to FIG. 2, the support unit 21 includes a base 211 having a hollow ring shape, a support base 212 extending upward from the base 211, a detachable fixing band 213 provided on the base 211, and a base provided on the base The handle 214 on the support 212. It should be noted that the components of the supporting unit 21 shown in the figure are only one of the implementation forms of this embodiment, and are not limited thereto. The detachable fixing strap 213 can fix the base 211 to an injured person, and the handle 214 is convenient for the rescuer to hold and move the automatic cardiopulmonary resuscitation device 2.

The pressing unit 23 includes a driving motor 231 disposed on the supporting base 212 and electrically connected to the control unit 22, a strain gauge 232 disposed on the driving motor 231, and a driving motor 231 capable of driving relative The pressing member 233 that moves up and down on the support base 212. In this embodiment, the driving motor 231 drives the pressing member 233 via a crank structure, but it is not limited thereto. The strain gauge 232 is used to detect the pressure value.

The gas supply unit 24 includes a powerful fan 241, and an air supply mask 242 for conveying the gas generated by the powerful fan 241.

The measurement unit 25 includes a heart rate sensing module 251 electrically connected to the control unit 22 and a blood pressure measurement module 252 electrically connected to the control unit 22. The heart rate sensing module 251 has at least one electrode patch 253 for measuring the pulse or heartbeat of the user, and a heart rate sensor 254 electrically connected to the electrode patch 253.

Referring again to FIG. 1, the inspection information device 3 can receive the information transmitted by the first transmission unit 26 and perform a preliminary inspection classification. The inspection information device 3 includes an arithmetic unit 31 and a second transmission unit 32 electrically connected to the arithmetic unit 31. The second transmission unit 32 receives the information transmitted by the first transmission unit 26, and then The calculation unit 31 performs calculation classification. The cloud database platform 4 can receive the integrated information of the inspection information device 3.

It should be noted that, in this embodiment, the control unit 22 mainly uses the Holtek HT66F70A chip for control, and receives the heart rate sensing module 251 and the blood pressure measuring module 252 via the IO analog UART communication format Measured vital signs data. The heart rate sensing module 251 uses the AD8232 to monitor the heart rate of the injured patient, and then converts the digital signal with the ADC to receive it for information transmission and interpretation. The blood pressure measurement module 252 uses the RS232 transmission interface to communicate with the control unit 22. In addition, in this embodiment, a UART connection is established through the HC-05 Bluetooth module to connect the control unit 22 to the inspection information device 3.

Referring to FIG. 2 and FIG. 3 in conjunction with FIG. 1, the following describes the usage mode and process of this embodiment. When the rescuer faces an injury, the support unit 21 of the automatic cardiopulmonary resuscitation device 2 is first straddled above the chest of the injured patient in a lying position, and the base 211 is detached using the detachable fixing belt 213 Securely bind to the injured person, and then install the air supply mask 242 on the injured face. Wherein, the detachable fixing belt 213 may be similar to the type of safety belt used in automobiles or airplanes.

Then, the electrode patch 253 of the heart rate sensing module 251 is attached to the wrist pulse or chest of the injured person, the heartbeat is detected, and the blood pressure measurement module 252 is placed on the injured arm to perform Measurement of blood pressure. The measured heartbeat and blood pressure are immediately transmitted to the inspection information device 3 via the first transmission unit 26. In this embodiment, the first transmission unit 26 is Bluetooth, the inspection information device 3 is a mobile device, and its built-in APP can display the name, gender, blood type, and medical treatment of the patient as shown in FIG. 5 Fields such as urgency and injured parts, and some fields provide drop-down menus to quickly fill in the corresponding information, and the heartbeat and blood pressure measured by the measurement unit 25 are transmitted through the first transmission unit 26 Go to the inspection information device 3 and display it under the above field.

2 and FIG. 3 again, when the heart rate sensing module 251 of the measuring unit 25 does not detect a heartbeat, the control unit 22 will activate the pressing unit 23 of the automatic cardiopulmonary resuscitation device 2 to drive the motor 231 starts to operate and as shown in FIG. 6, the pressing member 233 is driven to move up and down relative to the support base 212 to press the injured heart. The strain gauge 232 will measure the pressure channel to determine whether the pressing position is correct. After confirming that the pressing position is correct, 30 presses are performed, and then the press is stopped. The control unit 22 will activate the gas supply unit 24, drive the powerful fan 241 to blow air twice, and provide air to the air supply mask 242 Injuries.

When the heart rate sensing module 251 detects that the injured patient's heartbeat has recovered, it will also transmit the most recently detected information to the injury information device 3 via the first transmission unit 26. Referring again to FIG. 1, in this embodiment, the arithmetic unit 31 of the inspection information device 3 has a random forest classifier (not shown), which uses random forest classification to transmit the information transmitted by the first transmission unit 26 Perform calculation classification to make inspection classification. Finally, the data is transmitted to the cloud database platform 4 through the second transmission unit 32, and the medical institution preparing to receive the injury can get the latest information of the injury through the cloud database platform 4 before the patient arrives at the hospital Condition, so as to prepare in advance and immediately carry out first aid and necessary treatment after the injured arrive at the hospital.

It should be noted that the first transmission unit 26 is designed with Bluetooth, and the transmission of information does not need to pass through the network, so that the automatic cardiopulmonary resuscitation device 2 does not need to have a network function. After the information detected by the automatic cardiopulmonary resuscitation device 2 has been transmitted to the inspection information device 3 and integrated with the information manually input by the ambulance personnel, the integrated information needs to be transmitted through the second through the network The unit 32 transmits to the cloud database platform 4. The above design reduces the manufacturing cost and increases the field of use, ensuring that the automatic cardiopulmonary resuscitation device 2 can still transmit the detected information to the inspection information device 3 for data integration without a network. .

In summary, in the new cloud-based emergency medical system, when the patient needs first aid, the automatic cardiopulmonary resuscitation device 2 is fixed to the patient with the detachable fixing belt 213, and the pressing unit 23 is automatically and continuously Cardiopulmonary resuscitation is performed on the injured, and the patient's vital signs are monitored through the heart rate sensing module 251 and the blood pressure measuring module 252. If the patient's vital signs are weak, the standard CPR pressing action will be performed immediately, and oxygen will be supplied to the patient through the gas supply unit 24 every time the specified number of times is reached. At the same time, during the medical delivery process, the ambulance personnel in the vehicle can use the inspection information device 3 to transmit the injury data and detection data to the cloud database platform 4 through the second transmission unit 32, so that the hospital can Before the injured patient arrives, prepare the relevant medical preparations. According to this, it can replace the manpower to perform the extremely labor-intensive CPR action, avoid the situation of insufficient physical strength of the ambulance personnel, and enable the ambulance personnel to perform treatment measures other than CPR, increasing the golden rescue time of the injured. .

However, the above are only the preferred embodiments of the new model, but the scope of the implementation of the new model cannot be limited by this, that is, the simple equivalent changes and modifications made according to the scope of the patent application and the description of the new model, All of them are still covered by this new patent.

2‧‧‧Automatic cardiopulmonary resuscitation device 21‧‧‧Support unit 211‧‧‧Base 212‧‧‧Support seat 213‧‧‧Removable fixing belt 214‧‧‧ handle 22‧‧‧Control unit 23‧‧‧Press unit 231‧‧‧ drive motor 232‧‧‧strain gauge 233‧‧‧Pressing piece 24‧‧‧Gas supply unit 241‧‧‧Powerful fan 242‧‧‧Air supply mask 25‧‧‧Measurement unit 251‧‧‧Heart rate sensing module 252‧‧‧ blood pressure measurement module 253‧‧‧Electrode patch 254‧‧‧Heart rate sensor 26‧‧‧ First transmission unit 3‧‧‧Injury Information Device 31‧‧‧ arithmetic unit 32‧‧‧Second transmission unit 4‧‧‧ cloud database platform

FIG. 1 is a system architecture diagram, which is a preferred embodiment of a new cloud emergency medical system; 2 is a schematic diagram to assist in explaining the architecture of an automatic cardiopulmonary resuscitation device in FIG. 1; FIG. 3 is a flowchart illustrating the operation flow of the preferred embodiment; 4 is a schematic diagram illustrating how the automatic cardiopulmonary resuscitation device is installed on a wounded person; 5 is a schematic diagram illustrating a display screen of an inspection information device; and FIG. 6 is a schematic diagram illustrating how the automatic cardiopulmonary resuscitation device performs compression.

2‧‧‧Automatic cardiopulmonary resuscitation device

21‧‧‧Support unit

22‧‧‧Control unit

23‧‧‧Press unit

24‧‧‧Gas supply unit

25‧‧‧Measurement unit

251‧‧‧Heart rate sensing module

252‧‧‧ blood pressure measurement module

253‧‧‧Electrode patch

254‧‧‧Heart rate sensor

26‧‧‧ First transmission unit

3‧‧‧Injury Information Device

31‧‧‧ arithmetic unit

32‧‧‧Second transmission unit

4‧‧‧ cloud database platform

Claims (10)

A cloud emergency medical care system, including: An automatic cardiopulmonary resuscitation device, including: A supporting unit can be arranged above the chest of the injured patient in a lying position and can be detachably fixed to the injured patient; A control unit connected to the support unit; A pressing unit, arranged on the supporting unit and electrically connected to the control unit, the pressing unit can automatically repeatedly press a specific part of the injury; A measurement unit electrically connected to the control unit and capable of measuring the vital signs of the user; and A first transmission unit electrically connected to the control unit and capable of transmitting the data measured by the measurement unit; An injury information device capable of receiving the information transmitted by the first transmission unit and performing preliminary injury classification; and A cloud database platform can receive the integrated information of the inspection information device. According to the cloud emergency medical treatment system described in item 1 of the patent application scope, wherein the inspection information device includes an arithmetic unit, and a second transmission unit electrically connected to the arithmetic unit, the second transmission unit receives the The information transmitted by the first transmission unit is then classified by the operation unit. According to the cloud emergency medical system described in item 2 of the patent application scope, the support unit includes a hollow ring-shaped base, a support base extending upward from the base, and a detachable support provided on the base Type strap. According to the cloud emergency medical system described in item 3 of the patent application scope, wherein the pressing unit includes a driving motor disposed on the support base and electrically connected to the control unit, and a driving motor driven by the driving motor to be relatively A pressing member that moves up and down on the support base. According to the cloud emergency medical treatment system described in item 4 of the patent application scope, wherein the pressing unit further includes a strain gauge provided on the drive motor to detect the pressure value. According to the cloud emergency medical system described in item 1 of the patent application scope, wherein the measurement unit includes a heart rate sensing module electrically connected to the control unit, and a blood pressure measurement module electrically connected to the control unit group. According to the cloud emergency medical system described in item 6 of the patent application range, the heart rate sensing module has at least one electrode patch for measuring the user's pulse or heartbeat, and an electrode patch electrically connected to the electrode patch Heart rate sensor. According to the cloud emergency medical system described in item 1 of the patent application scope, wherein the automatic cardiopulmonary resuscitation device further includes a gas supply unit electrically connected to the control unit, including a powerful fan, and a power fan Gas supply mask. According to the cloud emergency medical system described in item 3 of the patent application range, the support unit further includes a handle disposed on the support base. According to the cloud emergency medical treatment system described in item 2 of the patent application scope, wherein the computing unit has a random forest classifier, which uses the random forest classification method to classify the information transmitted by the first transmission unit.

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