CN210956178U - Mobile emergency system and ambulance - Google Patents

Abstract

The embodiment of the utility model provides a remove first aid system and ambulance, this remove first aid system has realized the scene of first aid remote expert real-time guidance, the long-range monitoring of emergency ambulance operation on the way, the state of an illness evaluation decision of hospital to patient on the emergency ambulance, and remote operation guide etc. through remote command center and the portable remote consultation system of setting in the ambulance, solve the problem that the rescue work on the current ambulance is restricted by medical staff's clinical experience, and this application embodiment uses 5G network to send back the information in the emergency ambulance to command center in real time, make command center can be fast, stable obtains the information in the emergency ambulance, and then, can seek expert's guidance, help medical staff in the ambulance make full use of all kinds of medical facilities of current vehicle, effectively rescue in the rescue time such as "platinum" and "gold" of disease, the success rate of pre-hospital first aid is improved, and the serious risks of death of patients and the like are reduced.

Description

Mobile emergency system and ambulance

Technical Field

The embodiment of the utility model provides a relate to medical treatment first aid technical field, especially relate to a remove first aid system and ambulance.

Background

In the rescue or treatment of emergency accidents causing personnel health crisis, the time spent in winning minutes and winning rescue time is very important for the rescued people. Thus, the emergency system 120 plays an important role therein.

The emergency work mode adopted by the existing emergency system 120 mainly adopts an interphone to communicate orally with a hospital, and because of the lack of an effective disease monitoring system and relatively imperfect communication means, some areas basically lose contact with the affiliated medical institutions after the ambulances go out of a doctor, medical staff on the ambulances can only carry out rescue work on the ambulances according to clinical symptoms of patients and the clinical experience of the people, and the rescue work can be limited by the clinical experience of the medical staff.

However, medical staff waiting for rescue in a hospital can only determine a rescue scheme after knowing the condition of a patient after waiting for the patient to arrive at the hospital because the medical staff cannot know the state of the critically ill patient in the way, and the rescue time is delayed seriously.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a remove first aid system and ambulance to overcome the restriction that the work of suing and labouring on the current ambulance received medical staff's clinical experience, and the hospital can't in time know by the state of an illness change of salvaging critical patient on the way, leads to seriously delaying the problem of salvage time.

In a first aspect, an embodiment of the present invention provides a mobile emergency system, including a remote command center, and a mobile remote consultation system in an ambulance and an on-vehicle medical device for diagnosing and treating a patient, the mobile remote consultation system includes:

collecting various audio and video systems of the on-site audio and video;

a communication terminal in communication with the remote command center;

and a fifth Generation mobile communication (5th-Generation, 5G for short) communication module for connecting the vehicle-mounted medical equipment, the audio and video system and the communication terminal, and sending the diagnosis and treatment results of the patient and the audio and video to the remote command center, and realizing the on-site connection of the communication terminal and the remote command center.

The mobile emergency system is established in the embodiment of the application, through a remote command center and a mobile remote consultation system arranged in an ambulance, real-time guidance of remote experts in an emergency scene is realized, remote monitoring is carried out on the way of the ambulance, a hospital evaluates and decides the state of an illness of a patient on the ambulance, remote operation guidance and the like are realized, and the embodiment of the application uses a 5G network to send information in the ambulance back to the command center in real time, so that the command center can quickly and stably obtain the information in the ambulance, further, guidance of the experts can be sought, various medical facilities of the existing vehicle can be fully utilized by medical staff in the ambulance, effective treatment can be carried out within rescue time of 'platinum' and 'gold' and the like of the patient, the success rate of emergency treatment before the patient is improved, and serious risks of death and the like of the patient are.

In one possible design, the 5G communication module further transmits the results of diagnosis and treatment of the patient and the audio and video to the edge cloud, so that hospitals in a preset area share cloud data.

Here, corresponding information is transmitted to the edge cloud side through the 5G communication module, then, hospitals in a preset area can share cloud data in real time through a cloud computing technology and a terminal, and the cloud data and emergency personnel in the ambulance can monitor the state of an illness and treat patients together, so that all treatment receiving preparations can be made in time according to a treatment receiving request initiated by the ambulance, delay caused by waiting is reduced, and the treatment success rate is improved.

In one possible design, the system further includes a positioning and navigation module disposed in the ambulance for positioning and navigating the ambulance;

the 5G communication module is connected with the positioning navigation module and sends the positioning position of the ambulance to the remote command center.

The positioning navigation module can position and navigate an ambulance, and the 5G communication module can send the positioning position of the ambulance determined by the positioning navigation module to the remote command center, so that the remote command center can timely know the position information of the ambulance, further, rescue guidance can be given based on the position information of the ambulance, for example, a hospital closest to the ambulance is determined, and corresponding information is sent to the ambulance, so that a patient can be treated as soon as possible.

In addition, the 5G communication module can also send the positioning position of the ambulance to an edge cloud, so that hospitals in a preset area can share cloud data.

In one possible design, the mobile remote consultation system further includes: a case acquisition module connected with the hospital-related electronic case system.

Here, in the process of carrying the patient by the emergency ambulance, when medical staff is treating the patient, the medical staff needs to know the relevant diagnosis information of the patient, and the mobile remote consultation system according to the embodiment of the present application is provided with the case acquisition module connected to the hospital relevant electronic case system, so that the medical staff can acquire the electronic case of the patient in time, know the relevant diagnosis information of the patient, and correctly treat the patient.

In a possible design, the remote command center comprises a mobile terminal PAD, a 5G communication module which sends the diagnosis and treatment results of the patient and the audio and video to the mobile terminal PAD and realizes the field connection of the communication terminal and the mobile terminal PAD.

In the embodiment of the application, the mobile remote consultation system arranged in the ambulance sends results of diagnosis and treatment of patients and various audios and videos of a collecting site to the remote command center, the remote command center receives the information through the 5G communication module and sends the information to the mobile terminal PAD, relevant support team personnel of a hospital are invited to join in the treatment of the patients in the ambulance, and then, the real-time guidance of remote experts in the emergency scene, the remote monitoring during the operation of the ambulance, the evaluation decision of the hospital on the illness state of the patients on the ambulance, the remote operation guidance and the like are realized.

In one possible design, the remote command center further includes a Mediated Reality (MR) product, so that a specialist in a back hospital can perform discussion and labeling of real-time images by wearing the MR product, perform multi-party real-time evaluation of imaging, and specify subsequent treatment and surgical schemes.

In one possible design, the 5G communication module and the edge cloud are data exchange nodes in a block chain, respectively.

Here, a Blockchain (Blockchain) is a multi-party common maintenance, uses cryptography to ensure transmission and access security, and can implement a safe and reliable accounting technology, also called a distributed account book technology, in which data is stored consistently and is difficult to tamper.

The mobile emergency system of the embodiment of the application fuses block chain technique, designs whole car networking into a block chain, regards 5G communication module and marginal cloud in the car networking as block chain data exchange node respectively. The information in the emergency ambulance transmitted in the driving process is transmitted back to the edge cloud side through the 5G communication module, and then is combined with the core advantages of intelligent contracts, decentralization, openness and transparency of the block chain.

In one possible design, the onboard medical device includes a defibrillator, an electrocardiograph monitor, a portable ultrasound machine, an electrocardiograph, and a ventilator.

Wherein the defibrillator: if the sudden heartbeat of a patient stops, a full-automatic defibrillator needs to be used for defibrillation treatment immediately, and the ECG monitor is: if the patient lasts the coma, need carry out physiological signs monitoring in the transportation, need use ECG monitor, portable supersound appearance: if the patient is a pregnant woman and a lying-in woman has clinical problems, the relevant position can be explored by using portable ultrasound, and an electrocardiogram machine: the electrocardiogram information of a patient is acquired, and a breathing machine, such as a patient with dyspnea, needs to be used for assisting breathing immediately.

In addition, the vehicle-mounted medical equipment can also comprise other medical rescue equipment besides the equipment, and the embodiment of the application is not particularly limited.

In one possible design, the communication terminal is Augmented Reality (AR) glasses.

Here, the AR glasses are head-mounted devices, and are used for medical staff to shoot by using a front high-definition camera after arriving at the site, and can be transmitted back to a remote command center at a remote end in real time, and doctors with abundant experience in the command center perform site judgment and first aid guidance according to the site conditions of patients to determine the injury conditions and whether to transfer the patients instantly.

Illustratively, medical staff in an ambulance can be connected with a remote command center on site by wearing AR glasses, so that a remote expert can directly guide a site doctor to complete correct and effective site first aid while knowing the state of illness of a site patient. If the patient is in a slight condition, the treatment is only carried out on site. If the patient is complicated and needs to be transported to a nearby hospital for further examination and treatment, the ambulance transport process is started, and the emergency ambulance is safely and quickly transported to a relevant place. If the patient is seriously in condition and needs to be transported immediately, the air rescue mode is started and the patient is directly sent to a nearby hospital.

In one possible design, the positioning and navigation module is a Global Positioning System (GPS) module.

And the GPS module is used for positioning and navigating the vehicle, so that the remote command center can be reasonably arranged according to the position of the vehicle.

In a second aspect, embodiments of the present invention provide an ambulance in the mobile emergency system as described above in the first aspect and in various possible designs of the first aspect.

The mobile emergency system and the ambulance provided by the embodiment realize real-time guidance of remote experts on an emergency site, remote monitoring of the ambulance during operation, evaluation and decision of patients on the ambulance by hospitals, remote operation guidance and the like through a remote command center and a mobile remote consultation system arranged in the ambulance, solve the problem that rescue work on the existing ambulance is limited by clinical experience of medical staff, send information in the ambulance back to the command center in real time by using a 5G network, so that the command center can quickly and stably obtain information, further seek guidance of the emergency expert, assist the medical staff in the ambulance to fully utilize various medical facilities of the existing vehicle to effectively rescue the patients in the ambulance within rescue time such as 'platinum' and 'gold' and improve success rate before hospital, reducing the serious risks of death of the patient and the like.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a mobile emergency system according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of another mobile emergency system provided in the embodiment of the present application;

fig. 3 is a schematic structural diagram of another mobile emergency system according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The existing emergency system 120 is relatively imperfect due to lack of effective disease monitoring system and communication means, and some areas basically lose contact with the medical institutions after the ambulances go out of the hospital, so that the medical staff in the ambulances can only carry out rescue work on the ambulances according to the clinical symptoms of patients and the clinical experience of the patients, and the rescue work is limited by the clinical experience of the medical staff.

The medical staff waiting for the rescue in the hospital can only determine the rescue scheme after knowing the condition of the patient after waiting for the patient to arrive at the hospital because the medical staff can not know the state of the critically ill patient in the way, thereby seriously delaying the rescue time

Therefore, in view of the above problems, the present application provides a mobile emergency system, which implements real-time guidance of remote experts on an emergency site, remote monitoring of an emergency vehicle during operation, evaluation and decision of a hospital on a patient on the emergency vehicle, remote operation guidance and the like through a remote command center and a mobile remote consultation system arranged in the emergency vehicle, and uses a 5G network to send information in the emergency vehicle back to the command center in real time, so that the command center can quickly and stably obtain emergency information, and further, can seek expert guidance to assist medical staff in the vehicle to fully utilize various medical facilities of the existing vehicle, effectively rescue the patient within rescue time such as platinum and gold of the patient, improve success rate of emergency treatment in advance in the vehicle, and reduce serious risks of death of the patient in the hospital and the like.

The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a mobile emergency system according to an embodiment of the present invention, and as shown in fig. 1, the system may include a remote command center 101, a mobile remote consultation system 102 disposed in an ambulance, and a vehicle-mounted medical device 103 for diagnosing and treating a patient.

The mobile remote consultation system 102 includes:

and an audio and video system 1021 for collecting various audio and video of the scene.

A communication terminal 1022 for communicating with the remote command center 101.

The 5G communication module 1023 connected to the vehicle-mounted medical device 103, the audio/video system 1021 and the communication terminal 1022 sends the diagnosis and treatment results of the patient and the audio/video to the remote command center 101, and realizes the field connection between the communication terminal 1022 and the remote command center 101.

Here, the mobile remote consultation system may be disposed at a preset position of the ambulance, and may be specifically disposed according to practical situations, which is not particularly limited in the embodiments of the present application.

According to the embodiment of the application, the remote expert real-time guidance of the emergency site, the remote monitoring of the emergency ambulance in the operation process, the disease evaluation decision of a patient on the emergency ambulance by a hospital, the remote operation guidance and the like are realized through the remote command center and the mobile remote consultation system arranged in the emergency ambulance.

For example, the real-time guidance of the remote expert at the emergency site is taken as an example:

when a person breaks out a disease, the medical point receives the help-seeking information and dispatches the first-aid person to arrive at the scene by taking the ambulance. If the patient's condition is difficult to judge and can not move freely, the first-aid staff can be connected with a remote command center by a mobile remote consultation system in an ambulance and depending on a 5G network, and the first-aid task is completed under the visual remote guidance of the relevant hospital experts. And various images of the site and results of diagnosis and treatment of the patient by emergency personnel by using the vehicle-mounted medical equipment can be uploaded to a remote command center through a 5G network, and the remote command center can be comprehensively commanded according to site information.

Optionally, the communication terminal is AR glasses. In addition, the communication terminal may also be other communication devices, which may be specifically set according to actual situations, and this is not particularly limited in this embodiment of the present application.

In the embodiment of the application, after receiving the help information of the patient telephone 120, the 120 command center assigns the emergency personnel to the ambulance equipped with the mobile remote consultation system and the vehicle-mounted medical equipment for diagnosing and treating the patient to arrive at the scene. After arriving at the site, the medical staff in front can be connected with the remote command center in real time through the wearable AR glasses, so that the remote expert can directly guide the site doctor to complete correct and effective site first aid while knowing the state of illness of the site patient. If the patient is in a slight condition, the treatment is only carried out on site. If the patient is complicated and needs to be transported to a nearby hospital for further examination and treatment, the ambulance transport process is started, and the emergency ambulance is safely and quickly transported to a relevant place. If the patient is seriously in condition and needs to be transported immediately, the air rescue mode is started and the patient is directly sent to a nearby hospital.

For example, taking remote monitoring during the operation of the emergency ambulance as an example:

the scene of the embodiment of the application is a mobile rescue scene, and information in the emergency ambulance is sent back to the command center in real time by using a 5G network. Under the correct guidance of experts, medical staff in the vehicle can fully utilize various medical facilities of the existing vehicle to effectively treat patients within the time of 'platinum' and 'gold' rescue, thereby improving the success rate of pre-hospital emergency treatment and reducing serious risks of death of the patients and the like.

Optionally, the 5G communication module further transmits the diagnosis and treatment results of the patient and the audio and video to the edge cloud, so that hospitals in a preset area share cloud data.

For the edge cloud, in the embodiment of the present application, mobile edge computing (MEC for short) may be adopted, the mobile edge cloud platform is deployed in a cloud computing facility (i.e., edge cloud) inside the wireless base station or at the edge of the wireless access network to provide a localized cloud service, and a virtualized environment (e.g., OpenStack) based on the cloud platform is provided, so that the nearby processing of the service application edge computing, the nearby data analysis and feedback can be realized, the cloud computing pressure is effectively shared, the end-to-end data transmission delay is greatly reduced, the network bandwidth is saved, and the network pressure is reduced.

In the embodiment of the application, the patient is the proruption disease, in transit, emergency personnel can pass through on-vehicle medical equipment, AR glasses and audio and video system, with patient information, on-the-spot various audios and videos, transmit to marginal cloud in real time through the 5G network, and then, hospital accessible cloud computing technology and the real-time sharing high in the clouds data of terminal in the predetermined area, and monitor the state of an illness and rescue the patient with the interior emergency personnel of car jointly, according to the request of receiving a doctor that the ambulance launches, in time do all preparations of receiving a doctor, reduce the delay because of waiting to cause, improve the success rate of rescue.

Optionally, the vehicle-mounted medical device comprises a defibrillator, an electrocardiograph monitor, a portable ultrasound apparatus, an electrocardiograph, and a ventilator. Besides, the vehicle-mounted medical equipment may also include other equipment, which is not particularly limited by the embodiments of the present application.

In the embodiment of the application, the mobile remote consultation system and the remote command center are started immediately after a patient gets on the bus. Medical staff diagnoses, treats the patient through on-vehicle medical equipment, for example, connects the patient to the ECG monitor and carries out the continuous monitoring of vital sign, accomplishes the access of electrocardiograph, portable supersound appearance etc. simultaneously according to the disease condition. And then, the information such as the medical information picture, the real-time video in the emergency ambulance rescue capsule and the like and the sound of medical staff in the emergency ambulance are transmitted to the cloud end in real time through the vehicle-mounted 5G network through the mobile remote consultation system, and are transmitted to the remote command center in real time.

In addition, the mobile emergency system of the embodiment of the present application incorporates a blockchain technique in consideration of the data security problem of medical data of emergency vehicles.

Optionally, the 5G communication module and the edge cloud are data exchange nodes in a block chain respectively.

Here, the blockchain is a billing technology which is commonly maintained by multiple parties, uses cryptography to ensure transmission and access security, can achieve consistent data storage, is difficult to tamper, is safe and reliable, and is also called a distributed account book technology.

The embodiment of the application designs the whole Internet of vehicles into a block chain, and the 5G communication module and the edge cloud in the Internet of vehicles are respectively used as data exchange nodes of the block chain. The information in the emergency ambulance transmitted in the driving process is transmitted back to the edge cloud side through the 5G communication module, and then is combined with the core advantages of intelligent contracts, decentralization, openness and transparency of the block chain.

From the above description, the embodiment of the present application realizes real-time guidance of remote experts on an emergency scene, remote monitoring of an emergency vehicle during operation, and evaluation and decision of a hospital on the condition of a patient in the emergency vehicle through a remote command center and a mobile remote consultation system arranged in the emergency vehicle, and remote operation guidance, etc., solves the problem that the rescue work on the prior ambulance is limited by the clinical experience of medical personnel, in addition, the embodiment of the application uses the 5G network to send the information in the emergency ambulance back to the command center in real time, so that the command center can rapidly and stably acquire the information in the emergency ambulance, furthermore, expert guidance can be sought to assist medical staff in the vehicle to fully utilize various medical facilities of the existing vehicle, the patient can be effectively cured within the rescue time of 'platinum' and 'gold', the success rate of pre-hospital rescue is improved, and the serious risk of death of the patient is reduced.

In addition, the mobile emergency system of the embodiment of the application further comprises a positioning navigation module which is arranged in the ambulance and used for positioning and navigating the ambulance, and the 5G communication module is connected with the positioning navigation module and used for sending the positioning position of the ambulance to a remote command center. And the mobile remote consultation system further comprises: a case acquisition module connected with the hospital-related electronic case system. Fig. 2 is a schematic structural diagram of another mobile emergency system according to an embodiment of the present invention, and as shown in fig. 2, the system may include a remote command center 101, a mobile remote consultation system 102 disposed in an ambulance, a vehicle-mounted medical device 103 for diagnosing and treating a patient, and a positioning navigation module 104 for positioning and navigating the ambulance.

The mobile remote consultation system 102 includes:

and an audio and video system 1021 for collecting various audio and video of the scene.

A communication terminal 1022 for communicating with the remote command center 101.

The 5G communication module 1023 connected with the vehicle-mounted medical equipment 103, the positioning navigation module 104, the audio/video system 1021 and the communication terminal 1022 sends the diagnosis and treatment results of the patient, the positioning position of the ambulance and the audio/video to the remote command center 101, and realizes the field connection between the communication terminal 1022 and the remote command center 101.

A case acquisition module 1024 connected to the hospital-related electronic case system.

Here, the positioning navigation module can position and navigate the ambulance, and the 5G communication module can transmit the positioning position of the ambulance determined by the positioning navigation module to the remote command center, so that the remote command center can timely know the position information of the ambulance, and further, can give rescue guidance based on the position information of the ambulance, for example, determine a hospital closest to the ambulance, and transmit corresponding information to the ambulance, so that the patient can be treated as soon as possible.

In addition, the 5G communication module can also send the positioning position of the ambulance to an edge cloud, so that hospitals in a preset area can share cloud data.

Optionally, the positioning navigation module is a GPS module.

And the GPS module is used for positioning and navigating the vehicle, so that the remote command center can be reasonably arranged according to the position of the vehicle.

In the embodiment of the application, when a patient is carried by an emergency ambulance, medical staff needs to know the relevant diagnosis information of the patient when the patient is rescued, and the mobile remote consultation system of the embodiment of the application is provided with the case acquisition module connected with the relevant electronic case system of the hospital, so that the medical staff can acquire the electronic case of the patient in time, know the relevant diagnosis information of the patient and correctly rescue the patient.

For example, taking a hospital's decision to evaluate a patient's condition on an emergency ambulance as an example:

optionally, the remote command center further comprises an MR product.

In the process of carrying a patient in an emergency ambulance, medical staff in the ambulance can be connected with a hospital related electronic medical record system through a mobile remote consultation system, a remote expert is connected into the mobile remote consultation system by a 5G network at a local hospital through a mobile handheld device, and the expert and the medical staff on the emergency ambulance carry out real-time medical record discussion.

If the discussion of CT images is needed, the method is completed by means of a novel MR mixed reality product. CT medical DICOM format images connected with a hospital are quickly synthesized into three-dimensional images locally and uploaded to a cloud terminal in real time. A specialist in a back hospital discusses and marks the images in real time by wearing the MR product, so that the imaging is evaluated in multiple ways in real time, and subsequent treatment and operation schemes are determined.

From the above description, the positioning navigation module of the embodiment of the present application is used for positioning and navigating the vehicle, so that the remote command center can reasonably arrange according to the position of the vehicle, and the medical staff in the ambulance can timely obtain the electronic case of the patient through the case obtaining module, know the relevant diagnosis information of the patient, and correctly rescue the patient, in addition, the embodiment of the present application realizes the real-time guidance of the remote experts on the emergency scene, the remote monitoring during the operation of the ambulance, the patient evaluation decision of the hospital on the ambulance, the remote operation guidance and the like through the remote command center and the mobile remote consultation system arranged in the ambulance, solves the problem that the rescue work on the existing ambulance is limited by the clinical experience of the medical staff, and the embodiment of the present application uses the 5G network to send the information in the ambulance back to the command center in real time, the command center can rapidly and stably acquire information in the emergency ambulance, and then, expert guidance can be sought to assist medical staff in the ambulance to fully utilize various medical facilities of the existing vehicle, so that effective treatment can be carried out within the rescue time of 'platinum' and 'gold' of the patient, the success rate of pre-hospital emergency treatment is improved, and serious risks such as death of the patient are reduced.

In addition, the remote command center of the embodiment of the application comprises a mobile terminal PAD and a 5G communication module which sends the diagnosis and treatment results of the patient and the audio and video to the mobile terminal PAD and realizes the field connection between the communication terminal and the mobile terminal PAD. Fig. 3 is a schematic structural diagram of another mobile emergency system according to an embodiment of the present invention, and as shown in fig. 3, the system may include a remote command center 101, a mobile remote consultation system 102 disposed in an ambulance, and a vehicle-mounted medical device 103 for diagnosing and treating a patient.

The mobile remote consultation system 102 includes:

and an audio and video system 1021 for collecting various audio and video of the scene.

A communication terminal 1022 for communicating with the remote command center 101.

The 5G communication module 1023 connected to the vehicle-mounted medical device 103, the audio/video system 1021 and the communication terminal 1022 sends the diagnosis and treatment results of the patient and the audio/video to the remote command center 101, and realizes the field connection between the communication terminal 1022 and the remote command center 101.

The remote command center 101 includes:

a mobile terminal PAD1011 and a 5G communication module 1012 which transmits the diagnosis and treatment results of the patient and the audio and video to the mobile terminal PAD and realizes the field connection between the communication terminal and the mobile terminal PAD.

In the embodiment of the application, the mobile remote consultation system arranged in the ambulance sends results of diagnosis and treatment of patients and various audios and videos of a collecting site to the remote command center, the remote command center receives the information through the 5G communication module and sends the information to the mobile terminal PAD, relevant support team personnel of a hospital are invited to join in the treatment of the patients in the ambulance, and then, the real-time guidance of remote experts in the emergency scene, the remote monitoring during the operation of the ambulance, the evaluation decision of the hospital on the illness state of the patients on the ambulance, the remote operation guidance and the like are realized.

For example, after a patient gets on the ambulance, the embodiment of the present application starts the mobile remote consultation system and the remote command center provided in the ambulance. Firstly, medical staff can connect a patient to the ECG monitor to continuously monitor vital signs, and access of other medical equipment (an electrocardiograph and a portable ultrasonic instrument) is completed according to the condition of the patient. And then, the medical information picture, the real-time video in the emergency rescue cabin of the emergency ambulance, the vehicle position and other information are transmitted to the cloud end in real time together with the sound of medical staff in the emergency rescue vehicle through the vehicle-mounted 5G network, and are sent to a remote command center in real time. The remote command center invites relevant support team personnel of the hospital according to the patient condition to join in real-time treatment of the in-car patient in a mode of using a mobile terminal PAD and a 5G network equipped in the hospital.

From the above description, it can be seen that, in the embodiment of the present application, the remote command center receives information sent by the mobile remote consultation system in the ambulance through the 5G communication module, and sends the information to the mobile PAD, and invites relevant support team personnel of the hospital to join in the treatment of the patient in the ambulance, so as to implement remote expert real-time guidance in the emergency scene, remote monitoring in the course of the operation of the ambulance, evaluation and decision of the patient on the ambulance by the hospital, and remote operation guidance, etc., to solve the problem that the rescue work on the existing ambulance is limited by the clinical experience of the medical personnel, and the embodiment of the present application uses the 5G network to send the information in the ambulance back to the command center in real time, so that the command center can quickly and stably obtain the information in the ambulance, and further, can seek expert guidance to assist the medical personnel in the ambulance to fully utilize various medical facilities of the existing vehicle, the patient can be effectively cured within the rescue time of 'platinum' and 'gold', the success rate of pre-hospital rescue is improved, and the serious risk of death of the patient is reduced.

Corresponding to the mobile emergency system of the above embodiment, the present embodiment provides an ambulance, which is an ambulance in the mobile emergency system as described above.

In the several embodiments provided in the present disclosure, it should be understood that the disclosed apparatus may be implemented in other manners. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules is only one logical division, and other divisions may be realized in practice, for example, a plurality of modules may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or modules, and may be in an electrical, mechanical or other form.

The modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A mobile emergency system, which is characterized by comprising a remote command center, a mobile remote consultation system arranged in an ambulance and a vehicle-mounted medical device for diagnosing and treating a patient, wherein the mobile remote consultation system comprises:

collecting various audio and video systems of the on-site audio and video;

a communication terminal in communication with the remote command center;

and the fifth generation mobile communication 5G communication module is connected with the vehicle-mounted medical equipment, the audio and video system and the communication terminal, so that the results of diagnosis and treatment of the patient and the audio and video are sent to the remote command center, and the field connection of the communication terminal and the remote command center is realized.

2. The system of claim 1, wherein the 5G communication module further transmits the results of the diagnosis and treatment of the patient and the audio and video to a fringe cloud so that hospitals in a preset area share cloud data.

3. The system of claim 1, further comprising a positioning navigation module disposed in the ambulance that positions and navigates the ambulance;

the 5G communication module is connected with the positioning navigation module and sends the positioning position of the ambulance to the remote command center.

4. The system of claim 1, wherein the mobile remote consultation system further comprises: a case acquisition module connected with the hospital-related electronic case system.

5. The system according to claim 1, characterized in that the remote command center comprises a mobile terminal PAD and a 5G communication module which transmits the results of the diagnosis and treatment of the patient and the audio and video to the mobile terminal PAD and realizes the field connection of the communication terminal and the mobile terminal PAD.

6. The system of claim 2, wherein the 5G communication module and the edge cloud are each a data exchange node in a block chain.

7. The system of claim 1, wherein the onboard medical device comprises a defibrillator, an electrocardiograph monitor, a portable ultrasound device, an electrocardiograph, and a ventilator.

8. The system of claim 1, wherein the communication terminal is Augmented Reality (AR) glasses.

9. The system of claim 3, wherein the positioning navigation module is a Global Positioning System (GPS) module.

10. An ambulance, characterized in that it is an ambulance in the mobile emergency system according to any one of claims 1 to 9.

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