CN104462781A - Information interaction system and method for network hospital first aid service - Google Patents

Abstract

The invention discloses an information interaction method for a network hospital first aid service. The information interaction method includes the steps that a cloud server is connected with detection equipment and a medical institution terminal; the detection equipment collects physiological parameters and compares the physiological parameters with a safety threshold range; when the physiological parameters are not within the safety threshold range, the detection equipment outputs data to the cloud server; when receiving the data output by the detection equipment, the cloud server sends the data to the medical institution terminal. The invention further discloses an information interaction system for the network hospital first aid service. The information interaction system and method for the network hospital first aid service enable medical appointment to be intelligent, and further improve the timeliness and effectiveness of medical appointment information interaction.

Description

Information interaction system and method for network hospital emergency rescue

Technical Field

The invention relates to the technical field of medical instruments, in particular to an information interaction system and method for network hospital emergency help.

Background

At present, with the continuous development of information technology, more and more reservation systems enter daily life and work of people, such as hospital registration reservation, bank business handling reservation and the like. Taking hospital registration appointment example, at present, many hospitals for implementing appointment registration and companies engaged in related services exist in China, the current appointment registration mode is completed by making a call or logging in a website, the process is that a patient calls a reservation center, then a hospital and a department are selected according to voice prompt, or the patient logs in the website and the appointment registration process is completed according to website interface selection.

However, the above-mentioned reservation method has the following disadvantages: if a patient wants to contact the hospital at the first time, the patient needs to make a call or make an appointment on the internet, and the patient cannot make an appointment for registration without surfing the internet or making a call, or the patient can make a registration on the spot after sending the patient to the hospital. Whether the patient makes a telephone appointment, makes an Internet appointment or is sent to a hospital for registration, the process takes much time, and the premise is that the patient is clear in mind and can operate a telephone and a computer or be supported by relatives. If the patient can't accomplish the reservation of registering the number in the very first time, the hospital can't arrange in time, and medical care worker just can't go to the scene and handle. The above modes all reflect that the existing appointment modes are not intelligent enough and cannot timely and effectively carry out interaction of medical appointment information.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide an information interaction system and method for network hospital emergency rescue, and aims to solve the problems that the existing reservation mode is not intelligent enough and interaction of medical reservation information cannot be timely and effectively carried out.

To achieve the above object, an information interaction system for network hospital emergency help includes: the system comprises a cloud server, detection equipment and a medical institution terminal, wherein the detection equipment and the medical institution terminal are connected with the cloud server; the detection equipment comprises an output device, an acquisition device and a processor connected with the acquisition device, wherein the output device is respectively connected with the cloud server, the acquisition device and the processor; wherein:

the acquisition device acquires physiological parameters and sends the acquired physiological parameters to the processor;

the processor compares the physiological parameter with a safety threshold range, and sends a data output control signal to the output device when the physiological parameter is not in the safety threshold range;

the output device outputs data to the cloud server when receiving the data output control signal;

and the cloud server receives the data output by the output device and sends the data to the medical institution terminal.

Preferably, the detection apparatus further comprises: the positioning device is connected with the output device and is connected with the processor;

when the physiological parameter is not in the safety threshold range, the processor outputs a control signal for acquiring position information to the positioning device;

when the positioning device receives the control signal for acquiring the position information, the positioning device acquires the position information of the detection equipment and sends the acquired position information to the output device;

the output device outputs the position information to the cloud server;

and the cloud server receives the position information output by the output device and sends the position information to the medical institution terminal.

Preferably, the detection apparatus further comprises: the playing device is connected with the processor;

the playing device records information to be played in advance;

when the physiological parameter is not in the safety threshold range, the processor outputs a playing control signal to the playing device;

and the playing device plays the information to be played when receiving the playing control signal.

Preferably, when receiving the play control signal, the playing device outputs the information to be played to the output device;

the output device outputs the information to be played to the cloud server;

and the cloud server receives the information to be played output by the output device and sends the information to be played to the medical institution terminal.

Preferably, the cloud server is further connected with the user equipment, and the cloud server sends the data to the user equipment.

In addition, in order to achieve the above object, the present invention further provides a signal interaction method using the above signal interaction system for network hospital emergency rescue, where the information interaction method for network hospital emergency rescue includes the steps of:

the cloud server respectively establishes connection with the detection equipment and the medical institution terminal;

the detection equipment acquires physiological parameters and compares the physiological parameters with a safety threshold range;

when the physiological parameter is not within the safety threshold range, the detection equipment outputs data to the cloud server;

and when receiving the data output by the detection equipment, the cloud server sends the data to the medical institution terminal.

Preferably, after the step of acquiring the physiological parameter by the detection device and comparing the physiological parameter with the safety threshold range, the information interaction method for the network hospital emergency rescue further includes:

when the physiological parameters are not within the safe threshold range, the detection equipment acquires the position information of the detection equipment and outputs the position information to the cloud server;

and when receiving the position information, the cloud server sends the position information to the medical institution terminal.

Preferably, after the step of acquiring the physiological parameter and comparing the physiological parameter with the safety threshold range, the information interaction method for the network hospital emergency rescue further includes:

and when the physiological parameter is not in the safety threshold range, the detection equipment plays the information to be played, which is recorded in advance.

Preferably, after the step of acquiring the physiological parameter by the detection device and comparing the physiological parameter with the safety threshold range, the information interaction method for the network hospital emergency rescue further includes:

when the physiological parameter is not in the safety threshold range, the detection equipment plays the information to be played and outputs the information to be played to the cloud server;

and when receiving the information to be played, the cloud server sends the information to be played to the medical institution terminal.

Preferably, after the step of outputting data to the cloud server by the detection device when the physiological parameter is not within the safety threshold range, the information interaction method further includes:

the cloud server establishes connection with user equipment, and when receiving the data output by the detection equipment, the cloud server sends the data to the user equipment.

According to the invention, the physiological parameters are collected through the detection equipment, and when the physiological parameters are not in the range of the safety threshold value, the data are sent to the cloud server, so that the data are sent to the medical institution through the cloud server. The medical appointment system has the advantages that the data of the physiological parameters which are not within the safe threshold range are automatically sent to the medical institution terminal to complete medical appointment, so that the medical appointment is intelligent, and the timeliness and effectiveness of medical appointment information interaction are improved.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of an information interaction system for network hospital emergency assistance according to the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of the information interaction system for network hospital emergency assistance according to the present invention;

fig. 3 is a schematic structural diagram of an information interaction system for network hospital emergency assistance according to a third embodiment of the present invention;

fig. 4 is a flowchart illustrating a first embodiment of an information interaction method for network hospital emergency assistance according to the present invention;

fig. 5 is a flowchart illustrating a second embodiment of the information interaction method for network hospital emergency assistance according to the present invention;

fig. 6 is a flowchart illustrating a third embodiment of the information interaction method for network hospital emergency assistance according to the present invention;

fig. 7 is a flowchart illustrating a fourth embodiment of the information interaction method for network hospital emergency assistance according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: the cloud server respectively establishes connection with the medical institution terminals of the detection equipment; the detection equipment acquires physiological parameters and compares the physiological parameters with a safety threshold range; when the physiological parameter is not within the safety threshold range, the detection equipment outputs data to the cloud server; and when receiving the data output by the detection equipment, the cloud server sends the data to the medical institution terminal. The method comprises the steps of collecting physiological parameters through detection equipment, sending data to a cloud server when the physiological parameters are not within a safety threshold range, and sending the data to a medical institution through the cloud server. The medical appointment system has the advantages that the data of the physiological parameters which are not within the safe threshold range are automatically sent to the medical institution terminal to complete medical appointment, so that the medical appointment is intelligent, and the timeliness and effectiveness of medical appointment information interaction are improved.

Because the existing information interaction mode needs manual operation to realize information interaction with the medical institution terminal through a telephone or an online input mode, medical appointment is not intelligent enough, and the medical appointment information interaction with the medical institution terminal cannot be timely and effectively carried out.

Based on the existing problems, the invention provides an information interaction system for network hospital emergency rescue, which acquires physiological parameters through detection equipment, and sends data to a cloud server when the physiological parameters are not within a safety threshold range, so as to send data to a medical institution through the cloud server. The medical appointment system has the advantages that the data of the physiological parameters which are not within the safe threshold range are automatically sent to the medical institution terminal to complete medical appointment, so that the medical appointment is intelligent, and the timeliness and effectiveness of medical appointment information interaction are improved. The architecture diagram of the information interaction system for network hospital emergency rescue is shown in fig. 1.

Referring to fig. 1, the information interaction system for network hospital emergency assistance includes: the system comprises a cloud server 10, and a detection device 20 and a medical institution terminal 30 which are connected with the cloud server 10. The detection device 20 comprises an output device 21, an acquisition device 22 and a processor 23 connected with the acquisition device 22, wherein the output device 21 is respectively connected with the cloud server 10 and the processor 23; wherein,

the acquisition device 22 acquires physiological parameters and sends the acquired physiological parameters to the processor 23;

the detection device 20 is preferably a wearable device, and the acquisition device 22 is preferably a sensor, through which the physiological parameters are acquired when the detection device 20 is worn on the user. The physiological parameters include, but are not limited to, cardiac electrical signals, heart rate values, and the like. When acquiring the physiological parameter, the acquisition device 22 outputs the physiological parameter to the processor 23, so that the processor 23 can compare the physiological parameter with a safety threshold range. The safety threshold range is set according to the personal condition (for example, different age stages and different physical functions) of the user. And the safety threshold range is preferably a physiological parameter safety threshold range which is not in a serious condition, for example, the case that the physiological parameter is not in the safety threshold range may be: short paroxysmal ventricular tachycardia, persistent ventricular tachycardia, atrial fibrillation, ventricular fibrillation or cardiac arrest, etc. Safe threshold ranges for the physiological parameter are known to those skilled in the art and are not listed here.

The processor 23 compares the physiological parameter with a safety threshold range, and sends a data output control signal to the output device 21 when the physiological parameter is not within the safety threshold range;

the processor 23 receives the physiological parameter output by the acquisition device 22, compares the physiological parameter with a safety threshold range when receiving the physiological parameter output by the acquisition device 23, and sends a data output control signal to the output device 21 when the physiological parameter is not within the safety threshold range, for example, when the ventricular tachycardia is short; when the physiological parameter is within the safety threshold range, for example, when the cardiac rhythm is not seriously abnormal, the data output control signal is not sent to the output device 21, and the control signal for acquiring the physiological parameter is sent to the acquisition device 22, so as to control the acquisition device 22 to continue to acquire the physiological parameter. The physiological parameter may be an electrocardiogram, the safety threshold range may be an electrocardiogram comparison standard including a normal electrocardiogram and an abnormal electrocardiogram, and the processor 23 determines whether the acquired electrocardiogram is abnormal by comparing the acquired electrocardiogram with the normal electrocardiogram and the abnormal electrocardiogram. It is common for those skilled in the art to control the on/off of a certain function (e.g., a voice control function) by using a quantitative means (e.g., a preset threshold) and/or a qualitative means (e.g., a preset type), that is, those skilled in the art can easily think that the processor 23 is used to implement the purpose of sending a control signal by the existing quantitative means or qualitative means, controlling the output device 21 to output data, and/or controlling the acquisition device 22 to acquire physiological parameters. Therefore, the process of how the processor 23 compares the physiological parameter acquired by the acquisition device 22 with the safety threshold range and sends the control signal is not described herein again.

The output device 21 outputs data to the cloud server 10 when receiving the data output control signal;

the output device 21 is preferably a wireless module, such as a WiFi module, a bluetooth module, etc. Of course, the output device 21 may also be a wired network module. The wireless module is connected with the cloud server 10, and when receiving the data output control signal output by the processor 23, the wireless module outputs data to the cloud server 10. The data includes information that the physiological parameter is not within a safety threshold range, position information of the detection device 20, and/or information to be played recorded by the detection device 20 in advance, and/or alarm information that the physiological parameter is not within a safety threshold range.

The cloud server 10 receives the data output by the output device 21 and transmits the data to the medical institution terminal 30.

The medical institution terminal 30 is a terminal of a medical institution nearest to the detection device 20, for example, a terminal of a nearest central hospital. The cloud server 10 sends the data to the medical institution terminal 30, and the medical institution terminal 30 automatically completes medical appointment according to the data and sends out medical appointment prompt information so that the medical institution can send out staff to process the data in time. Through with data transmission is to nearest medical institution's terminal for nearest medical structure's staff can in time know that there is the patient unusual, need to deal with urgently and in time arrive to the scene and accomplish the processing, realizes the purpose of automatic reservation, effectively prevents to lead to the problem that the patient can't in time obtain handling in time to the reservation.

In other embodiments of the present invention, the following may also be performed: the cloud server 10 is further connected to a user device, which is a device associated with the user (patient) on the detection device 20 side, for example, a user device (e.g., a mobile phone, a pad, etc.) of a friend, family, or relative of the user on the detection device 20 side. The cloud server 10 writes user equipment information related to the detection equipment 20 in advance, the cloud server 10 receives the data output by the output device 21 and sends the data to the user equipment, and after the user at the user equipment side receives the data, the user at the detection equipment 20 side knows the condition of the user at the detection equipment 20 side and timely processes the data (arrives at a scene or makes an appointment with a telephone of a medical institution or makes an online appointment) according to the condition, so that the medical appointment can be effectively and successfully completed. In order to better describe the function of the information interaction system of the embodiment of the invention, the medical advance is as follows:

the processor 23 sends a data output control signal to the output device 21 when the acquired physiological parameter is not within the range of the safety threshold, the output device 21 sends alarm information that the physiological parameter is not within the range of the safety threshold to the cloud server 10 after receiving the data output control signal, the cloud server 10 sends the alarm information to the medical institution terminal 30 after receiving the alarm information to inform the medical institution to process the alarm information in time, the medical institution terminal 30 automatically completes medical appointment according to the alarm information and sends prompt information to inform relevant workers to process, so that the medical institution sends the workers to perform on-site processing in time, and sends the alarm information to the user equipment side user, so that the user equipment side user can perform on-site processing in time and/or inform other users nearest to the user equipment 20 side user to perform on-site processing and/or through a telephone or through telephone or telephone And completing medical appointment on the network. The intellectualization of medical appointment is realized, and the timeliness and effectiveness of medical appointment information interaction are further improved.

In the embodiment of the present invention, the detection device 20 acquires the physiological parameter, and sends data to the cloud server 10 when the physiological parameter is not within the safety threshold range, so as to send the data to the medical institution terminal 30 through the cloud server 10. The automatic transmission of the data of which the physiological parameters are not within the safe threshold value range to the medical institution terminal 30 is realized so as to reserve for the medical institution. The medical appointment making system has the advantages that medical appointment making is intelligentized, and timeliness and effectiveness of medical appointment information interaction are improved.

Referring to fig. 2, a schematic architecture diagram of a second embodiment of the information interaction system for network hospital emergency assistance according to the present invention is provided. The detection device 20 further comprises a positioning means 24 connected to the output means 21, the positioning means 24 being connected to the processor 23.

When the physiological parameter is not within the safety threshold range, the processor 23 outputs a control signal for acquiring position information to the positioning device 24;

when receiving the control signal for acquiring the position information, the positioning device 24 acquires the position information of the detection device and sends the acquired position information to the output device 21;

the output device 21 outputs the position information to the cloud server 10;

the cloud server 10 receives the position information output by the output device 21, and transmits the position information to the medical institution terminal 30.

The positioning device 24 may be a GPS positioning device, a beidou positioning device, or the like, and after receiving a control signal for acquiring location information sent by the processor 23, the positioning device 24 performs positioning on the current location to acquire the location information of the detection device 20, where the location information includes, but is not limited to, specific longitude and latitude or address information of a user on the detection device 20 side, for example, an XX number in an XX cell XX unit. The positioning device 24 sends the collected position information to the output device 21, the output device 21 outputs the position information to the cloud server 10, and the cloud server 10 sends the position information to the medical institution terminal 30 to complete medical appointment. Certainly, the cloud server 10 may also send the location information to the user equipment, so that a user at the user equipment side can more timely rush to the field for processing according to the location information.

According to the embodiment of the invention, the position information of the user at the side of the detection equipment 20 is reported to the medical institution, so that the position information of the user at the side of the detection equipment is reported to the staff of the medical institution while the medical appointment is completed, the staff can conveniently arrive at the site in time according to the position information, and the effectiveness of the information interaction of the medical appointment information is further improved.

Referring to fig. 3, a schematic architecture diagram of a third embodiment of the information interaction system for network hospital emergency assistance according to the present invention is provided. The detection device 20 further comprises a playback means 25 connected to the processor 23.

When the physiological parameter is not within the safety threshold range, the processor 23 outputs a playing control signal to the playing device 25;

and when receiving the playing control signal, the playing device 25 plays the information to be played recorded in advance.

The playing device 25 may be an audio playing module, and the playing device 25 records information to be played in advance, where the information to be played includes, but is not limited to, alarm information (e.g., information for asking for help, etc.), and/or emergency processing audio information of "please put me flat", "there are XX medicines in my pocket, please take one piece of medicine in the entry". The information to be played may also be written by copying the information to be played recorded from a storage device (e.g., a mobile hard disk, a mobile phone) communicatively connected thereto. The playing device 25 plays the information to be played when receiving the playing control signal sent by the processor 23. The playing device 25 plays the information to be played circularly, and stops playing after receiving the stop signal, for example, when the user touches the stop key, the playing is stopped. According to the embodiment of the invention, the information to be played is recorded in advance, when the processor 23 sends the control signal, the information to be played is played, and the adjacent user of the user at the side of the detection device 20 is informed to process the alarm information in time, so that the timeliness of the interaction of the medical reservation information is further improved, and precious rescue time is won for the user (patient).

Further, in other embodiments of the present invention, the following may also be performed: the playing device 25 outputs the information to be played to the output device 21 while playing the information to be played; the output device 25 outputs the information to be played to the cloud server 10;

the cloud server 10 receives the information to be played output by the output device 21, and sends the information to be played to the medical institution terminal 30 and the user equipment.

After receiving the playing control signal sent by the processor 23, the playing device 25 plays the information to be played, and outputs the information to be played to the output device 21, so that the output device 21 outputs the information to be played to the cloud server 10, and the cloud server 10 sends the information to be played to the medical institution terminal 30 and the user equipment. When the playing device 25 plays the information to be played, the information to be played is sent to the medical institution 30 and the user equipment through the cloud server 10 in time, and information interaction with the medical institution and the user at the user equipment side is completed in time, so that the user at the user equipment side and staff at the medical institution can process the information to be played in time and can reach the site for processing in time, and the timeliness and effectiveness of interaction of medical reservation information are further improved.

Based on the information interaction system for the network hospital emergency rescue, the invention correspondingly provides an information interaction method for the network hospital emergency rescue.

Referring to fig. 4, fig. 4 is a flowchart illustrating a first embodiment of an information interaction method for network hospital emergency assistance according to the present invention.

In one embodiment, the information interaction method for network hospital emergency assistance includes:

step S10, the cloud server respectively establishes connection with the detection device and the medical institution terminal;

the cloud server can be accessed to the Internet in a wireless or wired mode, and is connected with the detection equipment and the medical structure terminal through a network. The cloud server is connected with the wireless modules of the detection device, the user device and the medical institution terminal through network modules, such as wireless modules (WiFi modules and the like), or wireless connections are established in a broadcasting mode, and information interaction is achieved through transmission of broadcast signals.

Step S20, the detection device collects physiological parameters and compares the physiological parameters with a safety threshold range;

the detection equipment is preferably wearable equipment, the detection equipment comprises a sensor, and when the detection equipment is worn on the body of a user, physiological parameters are acquired through the sensor. The physiological parameters include, but are not limited to, cardiac electrical signals, heart rate values, and the like. The detection device compares the physiological parameter to a safety threshold range when acquiring the physiological parameter. The safety threshold range is set according to the personal condition (for example, different age stages and different physical functions) of the user. And the safety threshold range is preferably a physiological parameter safety threshold range which is not in a serious condition, for example, the case that the physiological parameter is not in the safety threshold range may be: short paroxysmal ventricular tachycardia, persistent ventricular tachycardia, atrial fibrillation, ventricular fibrillation or cardiac arrest, etc.

Step S30, when the physiological parameter is not within the safety threshold range, the detection device outputs data to the cloud server;

the detection equipment compares the physiological parameter with the safety threshold range when acquiring the physiological parameter, and outputs data to the cloud server when the physiological parameter is not in the safety threshold range, for example, short-matrix ventricular tachycardia; and when the heart rhythm is not seriously abnormal, data are not output to the cloud server, and physiological parameters are continuously acquired. The physiological parameter may be an electrocardiogram, the safety threshold range may be an electrocardiogram comparison standard including a normal electrocardiogram and an abnormal electrocardiogram, and the detecting device determines whether the acquired electrocardiogram is abnormal by comparing the acquired electrocardiogram with the normal electrocardiogram and the abnormal electrocardiogram. It is common for those skilled in the art to use quantitative means (e.g., a preset threshold) and/or qualitative means (e.g., a preset type) to control the on/off of a certain function (e.g., a voice control function), i.e., those skilled in the art can easily realize that the processor in the technology of the present application sends out a control signal to control the purpose of acquiring physiological parameters or sending data by using the existing quantitative means or qualitative means. Therefore, the process of how the detection device compares the collected physiological parameters with the safety threshold range and outputs data is not repeated herein.

The detection device preferably comprises a wireless module, for example a WiFi module, a bluetooth module, etc. Of course, a wired network module may also be included. The detection equipment is connected with the cloud server through the wireless module, and the wireless module outputs data to the cloud server. The data comprises information that the physiological parameter is not in a safety threshold range, position information of the detection equipment and/or information to be played recorded in advance by the detection equipment and/or alarm information that the physiological parameter is not in the safety threshold range, and the like.

Step S40, the cloud server sends the data to the medical institution terminal when receiving the data output by the detection device.

The medical institution terminal is a terminal of a medical institution closest to the detection device, for example, a terminal of a nearest central hospital. The cloud server sends the data to the medical institution terminal, and the medical institution terminal automatically completes medical appointment according to the data and sends out medical appointment prompt information so that the medical institution can send out staff to process the medical appointment prompt information in time. Through with data transmission is to nearest medical institution's terminal for nearest medical institution's staff can in time know that there is the patient unusual, need to deal with urgently and in time arrive to the scene and accomplish the processing, realizes the purpose of automatic reservation, effectively prevents to lead to the problem that the patient can't in time obtain handling in time to the reservation.

In other embodiments of the present invention, the following may also be performed: the cloud server also creates a connection with a user device, which is a device associated with the detection device side user (patient), for example, a user device (e.g., a mobile phone, pad, etc.) of a friend, family, or relative of the detection device side user. The cloud server writes user equipment information related to the detection equipment in advance, receives the data output by the output device and sends the data to the user equipment, so that after the user at the user equipment side receives the data, the user at the detection equipment side knows the condition of the user at the detection equipment side and timely processes the data (sends the data to a site or makes a call to a medical institution or makes an online appointment) according to the condition, and medical appointment is effectively and successfully completed. In order to better describe the function of the information interaction system of the embodiment of the invention, the medical advance is as follows:

when the acquired physiological parameters are not in the range of the safety threshold value, the detection equipment sends alarm information that the physiological parameters are not in the range of the safety threshold value to the cloud server, the cloud server receives the alarm information and then sends the alarm information to the medical institution terminal so as to inform the medical institution of timely processing the alarm information, the medical structure terminal automatically completes medical reservation according to the alarm information and sends prompt information so as to inform relevant staff of processing, so that the medical institution sends the staff to the field for processing in time, and sends the alarm information to the user equipment side user, so that the user equipment side user timely sends the field processing and/or informs other users nearest to the user equipment side to the field for processing and/or completes the medical reservation on the telephone or on the internet. The intellectualization of medical appointment is realized, and the timeliness and effectiveness of medical appointment information interaction are further improved.

According to the embodiment of the invention, the physiological parameters are collected through the detection equipment, and when the physiological parameters are not in the range of the safety threshold, the data are sent to the cloud server, so that the data are sent to the medical institution through the cloud server. The data that the physiological parameters are not in the safe threshold value range are automatically sent to the medical institution terminal so as to reserve for the medical institution. The medical appointment making system has the advantages that medical appointment making is intelligentized, and timeliness and effectiveness of medical appointment information interaction are improved.

Referring to fig. 5, fig. 5 is a flowchart illustrating an information interaction method for network hospital emergency assistance according to a second embodiment of the present invention. Based on the first embodiment of the information interaction method for network hospital emergency assistance, after step S20, the information interaction method for network hospital emergency assistance further includes:

step S50, the detection device collects the position information of the detection device and outputs the position information to the cloud server;

and step S60, when receiving the position information, the cloud server sends the position information to the medical institution terminal.

The detection device is loaded with a positioning device, for example, GPS positioning, Beidou positioning, and the like, and after the acquired physiological parameters are not within a safety threshold range, the detection device performs positioning on the current position to acquire the position information of the detection device, where the position information includes, but is not limited to, specific longitude and latitude or address information of a user on the detection device side, for example, XX number of XX unit in XX cell. The detection equipment outputs the position information to the cloud server, and the cloud server sends the position information to the medical institution terminal to complete medical appointment. Certainly, the cloud server 10 may also send the location information to the user equipment, so that a user at the user equipment side can more timely rush to the field for processing according to the location information.

According to the embodiment of the invention, the position information of the user at the detection equipment side is reported to the medical institution, so that the position information of the user at the detection equipment side is reported to the staff of the medical institution while the medical appointment is completed, the staff can conveniently arrive at the site in time according to the position information, and the effectiveness of the information interaction of the medical appointment information is further improved.

Referring to fig. 6, fig. 6 is a flowchart illustrating an information interaction method for network hospital emergency assistance according to a third embodiment of the present invention. Based on the second embodiment of the information interaction method for network hospital emergency assistance, after step S20, the information interaction method for network hospital emergency assistance further includes:

and step S70, when the physiological parameter is not in the safety threshold range, the detection device plays the information to be played recorded in advance.

The detection device comprises a playing device which can be an audio playing module or a power amplifier device and the like. The detection device records information to be played in advance, wherein the information to be played comprises but is not limited to alarm information (such as help information) and/or emergency processing audio information of 'please put me flat', 'there are XX medicines in the pocket of i, please take one piece of medicine to put in the entrance'. The information to be played may also be written by copying the information to be played recorded from a storage device (e.g., a mobile hard disk, a mobile phone) communicatively connected thereto. And when the acquired physiological parameters are not in the safety threshold range, the detection equipment plays the information to be played. The detection device may cyclically play the information to be played, and stop playing after receiving the stop signal, for example, when the user touches the stop button, the playing is stopped. According to the embodiment of the invention, the information to be played is recorded in advance, when the acquired physiological parameters are not in the range of the safety threshold value, the information to be played is played, and the adjacent user of the user at the detection equipment side is informed to process the alarm information in time, so that the timeliness of the interaction of the medical reservation information is further improved, and precious rescue time is won for the user (patient).

Further, referring to fig. 7, a flowchart of a fourth embodiment of the information interaction method for network hospital emergency assistance according to the present invention is provided, and after the step S20, the information interaction method for network hospital emergency assistance may further include:

step S80, when the physiological parameter is not in the safety threshold range, the detection device plays the information to be played and outputs the information to be played to the cloud server;

step S90, the cloud server receives the information to be played output by the detection device, and sends the information to be played to the medical institution terminal and the user device.

And after the acquired physiological parameters are not within the range of a safety threshold value, the detection equipment plays the information to be played and outputs the information to be played to the cloud server, and the cloud server sends the information to be played to the medical institution terminal and the user equipment. The detection equipment plays the information to be played and timely sends the information to be played to the medical institution and the user equipment through the cloud server, so that information interaction with the medical institution and the user equipment side user is timely completed, the user equipment side user and the medical institution timely process the information to be played and timely attend to site processing, and timeliness and effectiveness of medical reservation information interaction are further improved.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent mechanisms or equivalent processes performed by the present invention in the specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An information interaction system for network hospital emergency help, comprising: the system comprises a cloud server, detection equipment and a medical institution terminal, wherein the detection equipment and the medical institution terminal are connected with the cloud server; the detection equipment comprises an output device, an acquisition device and a processor connected with the acquisition device, wherein the output device is respectively connected with the cloud server, the acquisition device and the processor; wherein:

the acquisition device acquires physiological parameters and sends the acquired physiological parameters to the processor;

the processor compares the physiological parameter with a safety threshold range, and sends a data output control signal to the output device when the physiological parameter is not in the safety threshold range;

the output device outputs data to the cloud server when receiving the data output control signal;

and the cloud server receives the data output by the output device and sends the data to the medical institution terminal.

2. The information interaction system for network hospital emergency assistance of claim 1, wherein said detection device further comprises: the positioning device is connected with the output device and is connected with the processor;

when the physiological parameter is not in the safety threshold range, the processor outputs a control signal for acquiring position information to the positioning device;

when the positioning device receives the control signal for acquiring the position information, the positioning device acquires the position information of the detection equipment and sends the acquired position information to the output device;

the output device outputs the position information to the cloud server;

and the cloud server receives the position information output by the output device and sends the position information to the medical institution terminal.

3. The information interaction system for network hospital emergency assistance according to claim 1 or 2, characterized in that said detection device further comprises: the playing device is connected with the processor;

the playing device records information to be played in advance;

when the physiological parameter is not in the safety threshold range, the processor outputs a playing control signal to the playing device;

and the playing device plays the information to be played when receiving the playing control signal.

4. The information interaction system for network hospital emergency rescue of claim 3, wherein said playing means outputs said information to be played to said output means upon receiving said playing control signal;

the output device outputs the information to be played to the cloud server;

and the cloud server receives the information to be played output by the output device and sends the information to be played to the medical institution terminal.

5. The information interaction system for emergency assistance of network hospital as claimed in claim 1 or 2, characterized in that said cloud server is further connected with a user device, said cloud server transmitting said data to said user device.

6. A signal interaction method using the signal interaction system for network hospital emergency rescue according to any one of claims 1 to 5, wherein the information interaction method for network hospital emergency rescue comprises the steps of:

the cloud server respectively establishes connection with the detection equipment and the medical institution terminal;

the detection equipment acquires physiological parameters and compares the physiological parameters with a safety threshold range;

when the physiological parameter is not within the safety threshold range, the detection equipment outputs data to the cloud server;

and when receiving the data output by the detection equipment, the cloud server sends the data to the medical institution terminal.

7. The signal interaction method for network hospital emergency rescue of claim 6, wherein after the step of the detecting device acquiring a physiological parameter and comparing the physiological parameter with a safety threshold range, the information interaction method for network hospital emergency rescue further comprises:

when the physiological parameters are not within the safe threshold range, the detection equipment acquires the position information of the detection equipment and outputs the position information to the cloud server;

and when receiving the position information, the cloud server sends the position information to the medical institution terminal.

8. The signal interaction method for network hospital emergency rescue of claim 6, wherein after the step of the detecting device acquiring a physiological parameter and comparing the physiological parameter with a safety threshold range, the information interaction method for network hospital emergency rescue further comprises:

and when the physiological parameter is not in the safety threshold range, the detection equipment plays the information to be played, which is recorded in advance.

9. The signal interaction method for network hospital emergency rescue of claim 6, wherein after the step of the detecting device acquiring a physiological parameter and comparing the physiological parameter with the safety threshold range, the information interaction method for network hospital emergency rescue further comprises:

when the physiological parameter is not in the safety threshold range, the detection equipment plays the information to be played and outputs the information to be played to the cloud server;

and when receiving the information to be played, the cloud server sends the information to be played to the medical institution terminal.

10. The signal interaction method for cyber hospital emergency rescue according to any one of claims 6 to 9, wherein after the step of outputting data to the cloud server when the detection device is not within the range of the safety threshold value of the physiological parameter, the information interaction method for cyber hospital emergency rescue further comprises:

the cloud server establishes connection with user equipment, and when receiving the data output by the detection equipment, the cloud server sends the data to the user equipment.