TWM583764U - Disposable wireless physiological monitoring and first aid system - Google Patents

Abstract

This creation discloses a disposable wireless physiological monitoring and emergency system, including: signal connection At the receiving end, the signal receiving end is provided with three, and is distributed in a triangle manner at the top corner thereof; the signal processing and transmitting end located at the center of the triangle; the signal processing and the transmitting end are connected to the signal receiving end through the transmission line; the signal receiving end The end is provided with a detection signal patch for collecting physiological information and a first-aid signal electric shock patch for electric shock rescue; a circuit system is disposed on the signal processing and transmitting end; and a monitoring module is connected to the circuit system through a circuit operation and interpretation system; A cloud or mobile device that interfaces with the monitoring module via wireless, Bluetooth or Wifi; a first-aid system that interfaces with the monitoring module via a cloud or mobile device. The physiological monitoring and emergency system designed by this creation can not only carry with you, but also provide the family or medical staff with the physiological information of the tested patient anytime and anywhere, and has the function of external defibrillator, which is convenient to use.

Description

Disposable wireless physiological monitoring and emergency system

The present invention relates to the field of first aid devices, and more particularly to a disposable wireless physiological monitoring and emergency system.

The physiological monitoring system transmits various physiological signal information of the human body to other monitoring devices, which is convenient for medical personnel and the like to monitor and view. The existing physiological monitoring systems are mostly wired and wireless, but the current wireless transmission networking is not highly integrated.

Therefore, how to provide a physiological monitoring system that is convenient to use is an urgent problem to be solved by those skilled in the art.

In view of this, this creation provides a disposable wireless physiological monitoring and emergency system that can be carried around at a low price, and provides the family or medical staff with physiological information of the patient to be tested anytime and anywhere, and has an external defibrillator. Function, more convenient to use.

In order to achieve the above object, the present invention provides the following technical solutions: a disposable wireless physiological monitoring and emergency system, comprising: a signal receiving end, wherein the signal receiving end is provided with three, and is distributed in a triangle manner at a top corner thereof. a signal processing and transmitting end located at a center position of the triangle; the signal processing and transmitting end are transmitted through a transmission line Connecting with the signal receiving end; the signal receiving end is provided with a detecting signal patch for collecting physiological information and a first-aid signal electric shock patch for electric shock rescue; the signal processing and the transmitting end are provided with a circuit system a monitoring module coupled to the circuitry by a circuit operation and interpretation system; a cloud or mobile device docked with the monitoring module via wireless, Bluetooth or Wifi; docked with the monitoring module via the cloud or the mobile device First aid system.

Wherein, in the above-mentioned disposable wireless physiological monitoring and emergency system, the disposable wireless physiological monitoring and emergency system collects physiological information through the detection signal patch of the signal receiving end, and sequentially sequentially collects physiological information. Passed to the circuitry, the monitoring module, the cloud, and the emergency system, the first aid system determining whether a first aid instruction needs to be issued based on the obtained information.

Wherein in the above disposable wireless physiological monitoring and emergency system, the emergency system issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device, the monitoring module, the signal processing and transmission And the emergency signal electric shock patch, the emergency signal electric shock patch is subjected to electric shock first aid according to the obtained information.

Wherein, in the above-mentioned disposable wireless physiological monitoring and emergency system, the emergency signal electric shock patch is provided with a metal electrode, and the electric shock of the metal electrode is more than 25 joules.

Wherein in the above disposable wireless physiological monitoring and emergency system, a battery is fixed on the circuit system, and the battery supplies electric energy to the metal electrode, and the metal electrode can be supported to perform an emergency electric shock at least twice.

Wherein, in the above disposable wireless physiological monitoring and emergency system, the monitoring module can be a mobile phone user terminal, a tablet computer or other mobile device.

Wherein, in the above-mentioned disposable wireless physiological monitoring and emergency system, the cloud is installed at a nursing station or a hospital end, and the received information is transmitted to the nursing station or the database of the hospital end through the cloud.

In the above-mentioned disposable wireless physiological monitoring and emergency system, the detection signal patch can be an Ecg detection signal patch, an HR detection signal patch, an HRV detection signal patch, an EDR detection signal sticker. Slice or detect signal temperature patch.

Wherein, in the above-mentioned disposable wireless physiological monitoring and emergency system, the circuit system is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, and the detection signal patch is collected by the circuit operation and interpretation system. The data is processed by the circuit and transmitted to the monitoring module through the wireless signal transmitting end.

According to the above technical solution, compared with the prior art, the present disclosure provides a disposable wireless physiological monitoring and emergency system, which first collects physiological information through a detection signal patch distributed at a signal receiving end of a triangle. The collected physiological information is transmitted to the circuit system of the triangle center position signal processing and the transmitting end, and the circuit system performs circuit calculation on the received physiological data information through the circuit operation and the interpretation system, and sends the wireless signal to the monitoring module, and the monitoring module receives the The information is transmitted to the cloud via wireless, Bluetooth or Wifi. The cloud is set up at the nursing station or the hospital. On the one hand, the physiological information is transmitted to the database of the nursing station or the hospital through the cloud, and on the other hand, the cloud transmits the physiological information received to the first aid. The system, the emergency system determines whether the ward is in need of first aid measures, and if it is determined that the ward needs immediate first aid, the emergency system issues a first aid command and sequentially returns the command to the mobile device, the monitoring module, the signal processing and transmitting terminal, and the emergency signal. Electric shock patch, in which The circuit circuitry provided by the signal processing and transmitting end provides power for the emergency signal electric shock patch, and the electric shock is given to the ward after the emergency signal electric shock patch receives the instruction, and has the function of emergency rescue; Each electric shock of the metal electrode provided by the signal electric shock patch can strike a sufficient amount of Joule energy for electric shock, and the battery can support at least 2 times.

Therefore, this creation is not only simple in structure, small in size, convenient to carry, easy to use, and low in cost. This creation can be used only by being attached to the body, and can detect at least five physiological information to meet the needs of more users. At the same time, it also has the function of external defibrillator, which can provide first aid in time and has broad market development space.

1‧‧‧Signal receiving end

2‧‧‧Signal processing and transmission

3‧‧‧Detection signal patch

4‧‧‧First aid signal electric shock patch

5‧‧‧Circuit system

6‧‧‧Monitoring module

7‧‧‧Cloud

8‧‧‧Mobile devices

9‧‧‧First aid system

1 is a schematic structural view of a preferred embodiment of the present invention.

The technical solutions in the present creative embodiment will be described clearly and completely in conjunction with the drawings in the present embodiments. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present creation, all other embodiments obtained by those skilled in the art without creative efforts are within the scope of the present invention.

The present invention discloses a disposable wireless physiological monitoring and emergency system, which is not only simple in structure, small in size, convenient to carry, convenient to use, and low in cost, and the present invention can be used only by being attached to the body, and can be detected at least. The five physiological information meets the needs of more users, and has the first-aid function of the external defibrillator. It is a physiological monitoring and emergency device that can be used at home, and has a broad market development space.

Example 1

A disposable wireless physiological monitoring and emergency system includes: a signal receiving end 1, wherein the signal receiving end 1 is provided with three, and is distributed in a triangle manner at a top corner thereof; a signal processing and transmitting end located at a center position of the triangle 2 The signal processing and transmitting end 2 is connected to the signal receiving end 1 through a transmission line; the signal receiving end 1 is provided with a detection signal patch 3 for collecting physiological information and a first-aid signal electric shock patch 4 for electric shock rescue; signal processing a circuit system 5 is disposed on the transmitting end 2; a monitoring module 6 connected to the circuit system 5 through the circuit operation and interpretation system; a cloud 7 or a mobile device 8 connected to the monitoring module 6 via wireless, Bluetooth or Wifi; through the cloud 7 or The emergency device 9 in which the mobile device 8 interfaces with the monitoring module 6.

In order to further optimize the above technical solution, the detection signal patch 3 can be an Ecg detection signal patch.

In order to further optimize the above technical solution, the disposable wireless physiological monitoring and emergency system collects the heart information of the ward by the Ecg detection signal patch of the signal receiving end 1, and transmits the collected information to the circuit system 5 and the monitoring module in turn. 6. Cloud 7 and emergency system 9, the emergency system 9 determines whether a first aid instruction needs to be issued based on the obtained information.

In order to further optimize the above technical solution, the emergency system 9 issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device 8, the monitoring module 6, the signal processing and transmitting terminal 2, and the emergency signal electric shock patch 4, first aid. The signal electric shock patch 4 performs electric shock first aid based on the obtained information.

In order to further optimize the above technical solution, the emergency signal electric shock patch 4 is provided with a metal electrode, and each electric shock of the metal electrode is above 25 joules.

In order to further optimize the above technical solution, the battery system 51 is fixed on the circuit system 5, and the battery 51 supplies electric power to the metal electrode, and the metal electrode can be supported to perform emergency electric shock for at least two times.

In order to further optimize the above technical solution, the monitoring module 6 can be a mobile phone client, a tablet or other mobile device.

In order to further optimize the above technical solution, the cloud 7 is set up at the nursing station or the hospital end, and the received information is transmitted to the nursing station or the database of the hospital end through the cloud 7.

In order to further optimize the above technical solution, the circuit system 5 is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, which performs circuit calculation on the data collected by the detection signal patch 3 through the circuit operation and interpretation system, and transmits the data through the wireless signal transmitting end. Transfer to the monitoring module 6.

Example 2

A disposable wireless physiological monitoring and emergency system includes: a signal receiving end 1, wherein the signal receiving end 1 is provided with three, and is distributed in a triangle manner at a top corner thereof; a signal processing and transmitting end located at a center position of the triangle 2 The signal processing and transmitting end 2 is connected to the signal receiving end 1 through a transmission line; the signal receiving end 1 is provided with a detection signal patch 3 for collecting physiological information and a first-aid signal electric shock patch 4 for electric shock rescue; signal processing a circuit system 5 is disposed on the transmitting end 2; a monitoring module 6 connected to the circuit system 5 through the circuit operation and interpretation system; a cloud 7 or a mobile device 8 connected to the monitoring module 6 via wireless, Bluetooth or Wifi; through the cloud 7 or The emergency device 9 in which the mobile device 8 interfaces with the monitoring module 6.

In order to further optimize the above technical solution, the detection signal patch 3 can be an HR detection signal patch.

In order to further optimize the above technical solution, the disposable wireless physiological monitoring and emergency system collects the heart rate and sleep information of the ward by the HR detection signal patch of the signal receiving end 1, and transmits the collected information to the circuit system 5 in turn. The monitoring module 6, the cloud 7 and the emergency system 9, the emergency system 9 determines whether a first aid instruction needs to be issued based on the obtained information.

In order to further optimize the above technical solution, the emergency system 9 issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device 8, the monitoring module 6, the signal processing and transmitting terminal 2, and the emergency signal electric shock patch 4 The emergency signal electric shock patch 4 is based on the obtained information for electric shock first aid.

In order to further optimize the above technical solution, the emergency signal electric shock patch 4 is provided with a metal electrode, and each electric shock of the metal electrode is above 25 joules.

In order to further optimize the above technical solution, the battery system 51 is fixed on the circuit system 5, and the battery 51 supplies electric power to the metal electrode, and the metal electrode can be supported to perform emergency electric shock for at least two times.

In order to further optimize the above technical solution, the monitoring module 6 can be a mobile phone client, a tablet or other mobile device.

In order to further optimize the above technical solution, the cloud 7 is set up at the nursing station or the hospital end, and the received information is transmitted to the nursing station or the database of the hospital end through the cloud 7.

In order to further optimize the above technical solution, the circuit system 5 is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, which performs circuit calculation on the data collected by the detection signal patch 3 through the circuit operation and interpretation system, and transmits the data through the wireless signal transmitting end. Transfer to the monitoring module 6.

Example 3

A disposable wireless physiological monitoring and emergency system includes: a signal receiving end 1, wherein the signal receiving end 1 is provided with three, and is distributed in a triangle manner at a top corner thereof; a signal processing and transmitting end located at a center position of the triangle 2 The signal processing and transmitting end 2 is connected to the signal receiving end 1 through a transmission line; the signal receiving end 1 is provided with a detection signal patch 3 for collecting physiological information and a first-aid signal electric shock patch 4 for electric shock rescue; signal processing a circuit system 5 is disposed on the transmitting end 2; a monitoring module 6 connected to the circuit system 5 through the circuit operation and interpretation system; a cloud 7 or a mobile device 8 connected to the monitoring module 6 via wireless, Bluetooth or Wifi; through the cloud 7 or The emergency device 9 in which the mobile device 8 interfaces with the monitoring module 6.

In order to further optimize the above technical solution, the detection signal patch 3 can be an HRV detection signal patch.

In order to further optimize the above technical solution, the disposable wireless physiological monitoring and emergency system collects the heart rate variability information of the ward by the HRV detection signal patch of the signal receiving end 1, and transmits the collected information to the circuit system 5 in turn, and monitors The module 6, the cloud 7 and the emergency system 9, the emergency system 9 determines whether a first aid instruction needs to be issued based on the obtained information.

In order to further optimize the above technical solution, the emergency system 9 issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device 8, the monitoring module 6, the signal processing and transmitting terminal 2, and the emergency signal electric shock patch 4 The emergency signal electric shock patch 4 is based on the obtained information for electric shock first aid.

In order to further optimize the above technical solution, the emergency signal electric shock patch 4 is provided with a metal electrode, and each electric shock of the metal electrode is above 25 joules.

In order to further optimize the above technical solution, the battery system 51 is fixed on the circuit system 5, and the battery 51 supplies electric power to the metal electrode, and the metal electrode can be supported to perform emergency electric shock for at least two times.

In order to further optimize the above technical solution, the monitoring module 6 can be a mobile phone client, a tablet or other mobile device.

In order to further optimize the above technical solution, the cloud 7 is set up at the nursing station or the hospital end, and the received information is transmitted to the nursing station or the database of the hospital end through the cloud 7.

In order to further optimize the above technical solution, the circuit system 5 is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, which performs circuit calculation on the data collected by the detection signal patch 3 through the circuit operation and interpretation system, and transmits the data through the wireless signal transmitting end. Transfer to the monitoring module 6.

Example 4

A disposable wireless physiological monitoring and emergency system includes: a signal receiving end 1, wherein the signal receiving end 1 is provided with three, and is distributed in a triangle manner at a top corner thereof; a signal processing and transmitting end located at a center position of the triangle 2 The signal processing and transmitting end 2 is connected to the signal receiving end 1 through a transmission line; the signal receiving end 1 is provided with a detection signal patch 3 for collecting physiological information and a first-aid signal electric shock patch 4 for electric shock rescue; signal processing a circuit system 5 is disposed on the transmitting end 2; a monitoring module 6 connected to the circuit system 5 through the circuit operation and interpretation system; a cloud 7 or a mobile device 8 connected to the monitoring module 6 via wireless, Bluetooth or Wifi; through the cloud 7 or The emergency device 9 in which the mobile device 8 interfaces with the monitoring module 6.

In order to further optimize the above technical solution, the detection signal patch 3 can be an EDR detection signal patch.

In order to further optimize the above technical solution, the disposable wireless physiological monitoring and emergency system collects the ECG information of the ward by the detection signal patch 3 of the signal receiving end 1, and sequentially transmits the collected information to the circuit system 5, and monitors The module 6, the cloud 7 and the emergency system 9, the emergency system 9 determines whether a first aid instruction needs to be issued based on the obtained information.

In order to further optimize the above technical solution, the emergency system 9 issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device 8, the monitoring module 6, the signal processing and transmitting terminal 2, and the emergency signal electric shock patch 4 The emergency signal electric shock patch 4 is based on the obtained information for electric shock first aid.

In order to further optimize the above technical solution, the emergency signal electric shock patch 4 is provided with a metal electrode, and each electric shock of the metal electrode is above 25 joules.

In order to further optimize the above technical solution, the battery system 51 is fixed on the circuit system 5, and the battery 51 supplies electric power to the metal electrode, and the metal electrode can be supported to perform emergency electric shock for at least two times.

In order to further optimize the above technical solution, the monitoring module 6 can be a mobile phone client, a tablet or other mobile device.

In order to further optimize the above technical solution, the cloud 7 is set up at the nursing station or the hospital end, and the received information is transmitted to the nursing station or the database of the hospital end through the cloud 7.

In order to further optimize the above technical solution, the circuit system 5 is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, which performs circuit calculation on the data collected by the detection signal patch 3 through the circuit operation and interpretation system, and transmits the data through the wireless signal transmitting end. Transfer to the monitoring module 6.

Example 5

A disposable wireless physiological monitoring and emergency system includes: a signal receiving end 1, wherein the signal receiving end 1 is provided with three, and is distributed in a triangle manner at a top corner thereof; a signal processing and transmitting end located at a center position of the triangle 2 The signal processing and transmitting end 2 is connected to the signal receiving end 1 through a transmission line; the signal receiving end 1 is provided with a detection signal patch 3 for collecting physiological information and a first-aid signal electric shock patch 4 for electric shock rescue; signal processing a circuit system 5 is disposed on the transmitting end 2; a monitoring module 6 connected to the circuit system 5 through the circuit operation and interpretation system; a cloud 7 or a mobile device 8 connected to the monitoring module 6 via wireless, Bluetooth or Wifi; through the cloud 7 or The emergency device 9 in which the mobile device 8 interfaces with the monitoring module 6.

In order to further optimize the above technical solution, the detection signal patch 3 can be or detect a signal temperature patch.

In order to further optimize the above technical solution, the disposable wireless physiological monitoring and emergency system collects the temperature change information of the ward by the detection signal patch 3 of the signal receiving end 1, and transmits the collected information to the circuit system 5 in turn, and monitors The module 6, the cloud 7 and the emergency system 9, the emergency system 9 determines whether a first aid instruction needs to be issued based on the obtained information.

In order to further optimize the above technical solution, the emergency system 9 issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device 8, the monitoring module 6, the signal processing and transmitting terminal 2, and the emergency signal electric shock patch 4 The emergency signal electric shock patch 4 is based on the obtained information for electric shock first aid.

In order to further optimize the above technical solution, the emergency signal electric shock patch 4 is provided with a metal electrode, and each electric shock of the metal electrode is above 25 joules.

In order to further optimize the above technical solution, the battery system 51 is fixed on the circuit system 5, and the battery 51 supplies electric power to the metal electrode, and the metal electrode can be supported to perform emergency electric shock for at least two times.

In order to further optimize the above technical solution, the monitoring module 6 can be a mobile phone client, a tablet or other mobile device.

In order to further optimize the above technical solution, the cloud 7 is set up at the nursing station or the hospital end, and the received information is transmitted to the nursing station or the database of the hospital end through the cloud 7.

In order to further optimize the above technical solution, the circuit system 5 is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, which performs circuit calculation on the data collected by the detection signal patch 3 through the circuit operation and interpretation system, and transmits the data through the wireless signal transmitting end. Transfer to the monitoring module 6.

The various embodiments in the present specification are described in a progressive manner, and each embodiment focuses on differences from other embodiments, and the same similar parts between the various embodiments may be referred to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant parts can be referred to the method part.

The above description of the disclosed embodiments enables those skilled in the art to make or use the present invention. Various modifications to these embodiments are obvious to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not limited to the embodiments shown herein, but the broadest scope consistent with the principles and novel features disclosed herein.

Claims (9)

A disposable wireless physiological monitoring and emergency system includes: a signal receiving end, wherein the signal receiving end is provided with three, and is distributed in a triangle manner at a top corner thereof; a signal processing and transmission at a center position of the triangle The signal processing and transmitting end are connected to the signal receiving end through a transmission line; the signal receiving end is provided with a detection signal patch for collecting physiological information and an emergency signal electric shock patch for electric shock rescue; a circuit system is disposed on the signal processing and transmitting end; a monitoring module connected to the circuit system through a circuit operation and interpretation system; a cloud or a mobile device that interfaces with the monitoring module through wireless, Bluetooth or Wifi; An emergency system in which the cloud or the mobile device interfaces with the monitoring module. The disposable wireless physiological detection and emergency system according to claim 1, wherein the disposable wireless physiological monitoring and emergency system collects physiological information through the detection signal patch of the signal receiving end, and collects the information. The physiological information is sequentially transmitted to the circuit system, the monitoring module, the cloud, and the emergency system, and the emergency system determines whether a first-aid instruction needs to be issued according to the acquired information. The disposable wireless physiological monitoring and emergency system according to claim 1 or 2, wherein the emergency system issues a first aid instruction according to the received information, and sequentially transmits the first aid instruction to the mobile device, the monitoring module, The signal processing and transmitting end and the emergency signal electric shock patch, the emergency signal electric shock patch is subjected to electric shock first aid according to the obtained information. The disposable wireless physiological monitoring and emergency system according to claim 1, wherein the emergency signal electric shock patch is provided with a metal electrode, and each of the metal electrodes has an electric shock of 25 joules or more. The disposable wireless physiological monitoring and emergency system according to claim 1 or 4, wherein a battery is fixed on the circuit system, and the battery supplies electric energy to the metal electrode, and the metal electrode can be supported for first aid. Electric shock at least 2 times. The disposable wireless physiological monitoring and emergency system of claim 1, wherein the monitoring module can be a mobile phone user terminal, a tablet computer or other mobile device. The disposable wireless physiological monitoring and emergency system according to claim 1, wherein the cloud is installed at a nursing station or a hospital, and the received information is transmitted to the nursing station or the data of the hospital through the cloud. Library. The disposable wireless physiological monitoring and emergency system of claim 1, wherein the detection signal patch can be an Ecg detection signal patch, an HR detection signal patch, an HRV detection signal patch, or an EDR. Detect signal patch or detect signal temperature patch. The disposable wireless physiological monitoring and emergency system of claim 1, wherein the circuit system is provided with a circuit operation and interpretation system, and a wireless signal transmitting end, wherein the detection is performed by the circuit operation and interpretation system The data collected by the signal patch is subjected to circuit operation and transmitted to the monitoring module through the wireless signal transmitting end.