CN114827976A - Ambulance-mounted remote intelligent first-aid system - Google Patents

Abstract

The invention belongs to the technical field of medical emergency treatment, and particularly relates to an ambulance-mounted remote intelligent emergency system which comprises a control center, a first-aid center and a second-aid center, wherein the control center is used for receiving a distress signal of a terminal, acquiring the positioning of the distress signal and the positioning of the nearest hospital emergency center, and issuing the distress signal to a nearest non-task ambulance; the ambulance is used for receiving the first-aid tasks issued by the control center, carrying out first-aid treatment on the patient, acquiring the vital sign information of the patient and feeding back the information to the control center; and the hospital emergency center is used for acquiring the position, the path and the arrival time of the ambulance, informing a doctor of a corresponding department according to the vital sign information of the patient transported by the ambulance and scheduling corresponding examination preparation. The emergency rescue system overcomes the defects of the prior art, remotely guides emergency personnel, and utilizes the system to acquire the information of the patient, so that the hospital can prepare in advance, and the emergency rescue efficiency is improved.

Description

Ambulance-mounted remote intelligent first-aid system

Technical Field

The invention belongs to the technical field of medical first-aid, and particularly relates to an ambulance-mounted remote intelligent first-aid system.

Background

An ambulance refers to a vehicle for rescuing a patient. The 'AMBULANCE' on the car body is written in reverse, which is to make the driver in front see the AMBULANCE word in the positive direction directly through the rear-view mirror, thus giving way quickly. With the flashing of the warning light and the whistling sound of the alarm, it is no doubt that an ambulance is heading to an emergency scene of an emergency call. All traffic roads can pass through the fire-fighting escape device magically, a driver can drive at the edge of the lane, a sidewalk or even in the reverse direction-anywhere, and as long as an ambulance can pass through the fire-fighting escape device, like a fireman rushing to a fire scene, the ambulance needs to be in charge of minutes.

First aid on the ambulance is the gold time of rescue for emergency patients, but emergency personnel of the ambulance often delays the gold rescue time of the emergency patients because of lack of judgment on the emergency, and the patients have the problems that doctors do not know the patients and reexamine after being sent to hospitals, and the rescue time is delayed.

Disclosure of Invention

The invention aims to provide an ambulance-mounted remote intelligent emergency system, which overcomes the defects of the prior art, remotely guides emergency personnel, obtains the information of a patient by using the system, prepares the patient in advance and improves the emergency rescue efficiency.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

an ambulance-mounted remote intelligent first-aid system comprises

The control center is used for receiving the distress signal of the terminal, acquiring the positioning of the distress signal and the positioning of the nearest hospital emergency center, and sending the distress signal to the nearest non-task ambulance;

the ambulance is used for receiving the first-aid tasks issued by the control center, carrying out first-aid treatment on the patient, acquiring the vital sign information of the patient and feeding back the information to the control center;

the hospital emergency center is used for acquiring the position, the path and the arrival time of the ambulance, informing a doctor of a corresponding department according to the vital sign information of the patient transported by the ambulance and arranging corresponding examination preparation;

and the remote emergency center is used for receiving the vital sign information of the patient transported by the ambulance, connecting the ambulance according to the information video and remotely guiding emergency work.

Further, the ambulance comprises:

a processor for coordinating the operation of the parts;

the GPS positioning module is used for acquiring the accurate positioning of the ambulance;

the data acquisition unit is used for acquiring vital sign information of a patient in real time;

the navigation planning module is used for planning a fastest path according to positioning of the issued distress signal or positioning of a hospital emergency center;

the data comparison module is used for comparing the acquired vital sign information with a preset threshold value;

the display is used for displaying the acquired vital sign information and the data information compared by the data comparison module;

the audio interaction device is used for acquiring video and audio in the ambulance, and is connected with the remote emergency center for communication;

and the data transmission unit transmits the information in the ambulance to the control center and receives the information issued by the control center.

Further, the data transmission unit is connected with the control center through a 4G or 5G communication mode.

Further, the control center also has the function of judging whether the hospital emergency center has the treatment capacity according to the vital sign information of the patient, and reselects the hospital emergency center according to the relevant information.

Further, the control center informs the corresponding traffic department after acquiring the navigation planning path of the ambulance, and adjusts the traffic lights.

Furthermore, the ambulance is also provided with a face recognition module for recognizing the identity information of the patient, uploading the identity information to the control center, acquiring the identity card number and the medical insurance information of the patient, and informing the hospital emergency center of arranging admission work.

Furthermore, the control center can query the past medical history of the patient after acquiring the identification number and the medical insurance information of the patient and respectively send the past medical history to the hospital emergency center and the remote emergency center.

Compared with the prior art, the invention has the following beneficial effects:

the system is adopted to dispatch the ambulance, so that the emergency treatment efficiency of the ambulance is accelerated, and a proper emergency hospital is selected after the control center judges the state of illness of the patient, so that the delay of rescue caused by the treatment level is avoided; the remote first-aid center guides first-aid workers to rescue patients in a video mode, so that the gold first-aid time is prevented from being delayed, the success rate of first-aid is improved, and the lives of the patients are saved.

Drawings

Fig. 1 is a schematic diagram of an ambulance-mounted remote intelligent first aid system.

Fig. 2 is a schematic block diagram of the system control of an ambulance in an ambulance-mounted remote intelligent first aid system.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figures 1-2, the ambulance-mounted remote intelligent emergency system comprises

The control center is used for receiving the distress signal of the terminal, acquiring the positioning of the distress signal and the positioning of the nearest hospital emergency center, and sending the distress signal to the nearest non-task ambulance;

the ambulance is used for receiving the first-aid tasks issued by the control center, carrying out first-aid treatment on the patient, acquiring the vital sign information of the patient and feeding back the information to the control center;

the hospital emergency center is used for acquiring the position, the path and the arrival time of the ambulance, informing a doctor of a corresponding department according to the vital sign information of the patient transported by the ambulance and arranging corresponding examination preparation;

and the remote emergency center is used for receiving the vital sign information of the patient transported by the ambulance, connecting the ambulance according to the information video and remotely guiding emergency work.

Further, the ambulance comprises:

a processor for coordinating the operation of the parts;

the GPS positioning module is used for acquiring the accurate positioning of the ambulance;

the data acquisition unit is used for acquiring the vital sign information of the patient in real time, wherein the vital sign information of the patient comprises but is not limited to heart rate, respiratory rate, body temperature, blood pressure, blood oxygen saturation and blood viscosity;

the navigation planning module is used for planning a fastest path according to positioning of the issued distress signal or positioning of a hospital emergency center, and sending the planned path and the predicted arrival time to the control center after navigation planning;

the data comparison module is used for comparing the acquired vital sign information with a preset threshold value, and giving an early warning to the numerical values outside the preset threshold value, so that the judgment of the state of an illness of the patient is facilitated;

the display is used for displaying the acquired vital sign information and the data information compared by the data comparison module;

the audio interaction device is used for acquiring video and audio in the ambulance, and is connected with the remote emergency center for communication;

and the data transmission unit is used for transmitting the information in the ambulance to the control center and receiving the information sent by the control center.

Further, the data transmission unit is connected with the control center through 4G or 5G communication.

Further, the control center also has the function of judging whether the hospital emergency center has the treatment capacity according to the vital sign information of the patient, and reselects the hospital emergency center according to the relevant information; the delay of first aid time caused by delivery to a hospital with insufficient rescue ability is avoided.

Further, the control center acquires the navigation planning path of the ambulance and then informs a corresponding traffic department to adjust a traffic light, so that the problem that the time consumption of a patient is too long during medical delivery due to traffic causes and the best rescue opportunity is delayed is avoided.

Furthermore, the ambulance is also provided with a face recognition module for recognizing the identity information of the patient, uploading the identity information to the control center, acquiring the identity card number and the medical insurance information of the patient, informing the hospital emergency center to arrange the admission work, and immediately treating the patient after the patient arrives at the hospital.

Furthermore, the control center can query the past medical history of the patient after acquiring the identification card number and the medical insurance information of the patient and respectively send the past medical history to a hospital emergency center and a remote emergency center, thereby being beneficial to subsequent emergency work and improving the success rate of emergency treatment.

In summary, according to the ambulance-mounted remote intelligent emergency system, after receiving an emergency signal of a patient, the control center issues the position of the patient and the position of the nearest hospital to the nearest ambulance without tasks, the ambulance monitors vital signs of the patient by using the data acquisition unit after receiving the patient, compares the vital signs with a threshold value through the comparison module, feeds back information and a comparison result on the display, and simultaneously sends the information to the control center, and the control center analyzes and judges the information to determine whether the current target hospital can carry out emergency treatment on conditions or not, and if the emergency treatment conditions of the hospital are exceeded, changes a new hospital address; during the transportation process of the ambulance, the control center connects the ambulance with a remote emergency center through an audio interaction device, and emergency specialists of the remote emergency center can give guidance to an emergency method according to the condition of a patient.

The ambulance carries out path planning by the navigation planning module after determining the target hospital, and transmits the planned route and the planned arrival time to the control center, and the control center transmits the predicted arrival time and the relevant information of the patient to the hospital together, so that the hospital can conveniently carry out early preparation; meanwhile, the route information is transmitted to a traffic control department to control traffic lights along the way, and a green channel is provided.

After the patient is in the ambulance, the ambulance identifies the identity of the patient through the face identification module, and the control center acquires the identity information and the medical insurance information of the patient through connecting the database of the public security bureau and reads the previous case of the patient, thereby being beneficial to the hospital to arrange admission and follow-up treatment.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides an on-vehicle long-range intelligent first aid system of ambulance which characterized in that: comprises that

The control center is used for receiving the distress signal of the terminal, acquiring the positioning of the distress signal and the positioning of the nearest hospital emergency center, and sending the distress signal to the nearest non-task ambulance;

the ambulance is used for receiving the first-aid tasks issued by the control center, carrying out first-aid treatment on the patient, acquiring the vital sign information of the patient and feeding back the information to the control center;

the hospital emergency center is used for acquiring the position, the path and the arrival time of the ambulance, informing a doctor of a corresponding department according to the vital sign information of the patient transported by the ambulance and arranging corresponding examination preparation;

and the remote emergency center is used for receiving the vital sign information of the patient transported by the ambulance, connecting the ambulance according to the information video and remotely guiding emergency work.

2. The ambulance-mounted remote intelligent emergency system according to claim 1, wherein: the ambulance comprises:

a processor for coordinating the operation of the parts;

the GPS positioning module is used for acquiring the accurate positioning of the ambulance;

the data acquisition unit is used for acquiring vital sign information of a patient in real time;

the navigation planning module is used for planning a fastest path according to positioning of the issued distress signal or positioning of a hospital emergency center;

the data comparison module is used for comparing the acquired vital sign information with a preset threshold value;

the display is used for displaying the acquired vital sign information and the data information compared by the data comparison module;

the audio interaction device is used for acquiring video and audio in the ambulance, and is connected with the remote emergency center for communication;

and the data transmission unit transmits the information in the ambulance to the control center and receives the information issued by the control center.

3. The ambulance-mounted remote intelligent emergency system according to claim 2, wherein: the data transmission unit is connected with the control center through a 4G or 5G communication mode.

4. The ambulance-mounted remote intelligent emergency system according to claim 2, wherein: the control center also has the function of judging whether the hospital emergency center has the treatment capacity according to the vital sign information of the patient, and reselects the hospital emergency center according to the relevant information.

5. The ambulance-mounted remote intelligent first aid system according to claim 3, wherein: and the control center informs the corresponding traffic department after acquiring the navigation planning path of the ambulance and adjusts the traffic lights.

6. The ambulance-mounted remote intelligent emergency system according to claim 2, wherein: the ambulance is also provided with a face recognition module for recognizing the identity information of the patient, uploading the identity information to the control center, acquiring the identity card number and the medical insurance information of the patient and informing the hospital emergency center of arranging admission work.

7. The ambulance-mounted remote intelligent first aid system according to claim 6, wherein: the control center can also inquire the past medical history of the patient after acquiring the identification card number and the medical insurance information of the patient and respectively send the past medical history to the hospital emergency center and the remote emergency center.

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