CN116369932A - Multi-parameter monitor and use method thereof - Google Patents

Abstract

The invention discloses a multi-parameter monitor and a using method thereof, which belong to the technical field of multi-parameter monitors, and particularly relates to a multi-parameter monitor and a using method thereof.

Description

Multi-parameter monitor and use method thereof

Technical Field

The invention relates to the technical field of multi-parameter monitors, in particular to a multi-parameter monitor and a use method thereof.

Background

The multi-parameter monitor can provide important patient information for medicine, can detect important parameters such as electrocardiosignals, heart rate, blood pressure, respiratory frequency and body temperature of a human body in real time through various functional modules, realizes supervision and alarm of each parameter, stores and transmits information, and is an important device for monitoring patients.

The traditional monitor is large in size, and can not move due to cable stumbling, so that a patient can only lie on a sickbed to monitor the physical sign of the patient in real time, and operation operations such as anesthesia, painless gastroenteroscope diagnosis and treatment are blocked and inconvenient to operate under the condition that a plurality of groups of cables are stumbled.

Disclosure of Invention

The present invention has been made in view of the above and/or problems associated with the prior art multi-parameter monitors and methods of use thereof.

Therefore, an object of the present invention is to provide a multi-parameter monitor and a method for using the same, in which a multi-parameter monitor main body is connected with a blood pressure monitor component, an electrocardiograph monitor component, a body temperature monitor component and an blood oxygen monitor component to monitor electrocardiograph, blood pressure, blood oxygen, heart rate, respiration and temperature in real time, and the multi-parameter monitor main body is worn on an arm, so that the above-mentioned existing problems can be solved.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a multi-parameter monitor, comprising:

the multi-parameter monitor consists of a multi-parameter monitor main body and a display terminal, and is connected with a blood pressure monitoring component, an electrocardiograph monitoring component, a body temperature monitoring component and an blood oxygen monitoring component through the multi-parameter monitor main body to monitor electrocardio, blood pressure, blood oxygen, heart rate, respiration and temperature in real time, and the multi-parameter monitor main body is worn on an arm, and monitors various indexes in real time through checking the multi-parameter monitor main body and remotely checking the display terminal;

one end of the blood pressure monitoring component is electrically connected to the left end of the outer wall of the multi-parameter monitoring host body, and the other end of the blood pressure monitoring component is arranged on the arm of a patient;

one end of the electrocardiograph monitoring component is electrically connected to the left side of the rear end of the outer wall of the multi-parameter monitoring host body, and the other end of the electrocardiograph monitoring component is adhered to the periphery of the chest of a patient through five leads;

one end of the body temperature monitoring component is electrically connected to the right side of the rear end of the outer wall of the multi-parameter monitoring host body, and the other end of the body temperature monitoring component is inserted into the ears of a patient for monitoring;

one end of the blood oxygen monitoring component is electrically connected to the middle of the front end of the outer wall of the multi-parameter monitoring host body, and the other end of the blood oxygen monitoring component is arranged at the finger of a patient;

the display terminal is in wireless connection with the multi-parameter monitoring host body and can remotely check the physical signs of the patient in real time;

the function module is arranged in the multi-parameter monitoring host body and can perform functions of wireless connection, man-machine intelligent interaction, video interaction, voice interaction, medical voice recording input and real-time positioning of the position of a patient;

the wireless concentrator is in wireless connection with the multi-parameter monitors, can be used for carrying out wireless and wired connection on various monitors, and can be connected into a remote centralized monitoring system;

the remote centralized monitoring system is connected with the cloud platform, so that the multi-parameter monitor is connected with the emergency central management platform and the emergency medical staff end, and data are communicated.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the multi-parameter monitoring host body comprises:

the multi-parameter monitoring host is detachably arranged on the surface of the blood pressure monitoring component;

the power supply is arranged in the multi-parameter monitoring host and can supply power to the multi-parameter monitoring host;

the storage module is arranged in the multi-parameter monitoring host and can locally store medical data;

the clamping plate is arranged at the bottom of the multi-parameter monitoring host and is clamped with the surface of the blood pressure monitoring component;

the display screen is arranged on the surface of the multi-parameter monitoring host and can be used for checking the physical sign data of the patient;

the power supply indicator lamp is arranged on the left side of the rear end of the surface of the multi-parameter monitoring host machine and can display the electric quantity of the power supply;

the charging indicator lamp is arranged on the right side of the rear end of the surface of the multi-parameter monitoring host machine and can display the state during charging;

the blood pressure key is arranged at the left side of the front end of the surface of the multi-parameter monitoring host machine and can display blood pressure data in a one-key manner;

the function key is arranged on the right side of the front end of the surface of the multi-parameter monitoring host machine and can select different functions;

the charging interface is arranged at the front side of the right end of the outer wall of the multi-parameter monitoring host, and can connect the charging socket and charge the multi-parameter monitoring host;

the power key is arranged at the rear side of the right end of the outer wall of the multi-parameter monitoring host machine and can be used for starting up and key operation of the multi-parameter monitoring host machine.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the multi-parameter monitoring host comprises:

the blood pressure interface is arranged at the left end of the outer wall of the multi-parameter monitoring host and can be electrically connected with the blood pressure monitoring component;

the electrocardio interface is arranged at the left side of the rear end of the outer wall of the multi-parameter monitoring host and can be electrically connected with the electrocardio monitoring component;

the body temperature interface is arranged on the right side of the rear end of the outer wall of the multi-parameter monitoring host and can be electrically connected with the body temperature monitoring component;

the blood oxygen interface is arranged in the middle of the front end of the outer wall of the multi-parameter monitoring host and can be electrically connected with the blood oxygen monitoring component.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the blood pressure monitoring assembly includes:

a cuff which is mounted on an arm of a patient and is internally provided with a blood pressure sensor;

an airbag which is provided inside the cuff and can inflate and press the arm;

a clamping bag which is arranged on the surface of the cuff and can be clamped by a clamping plate inside;

the trachea, it sets up to the Y type, and one end is connected in the inside of blood pressure interface to can make blood pressure interface one end connect standard press, the NIBP is connected to the other end, carries out gas leakage and blood pressure warning, and the spherical air pump of other end threaded connection.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the electrocardiographic monitoring assembly comprises:

the electrocardio connector is electrically connected inside the electrocardio interface;

the electrocardio connecting wires are connected to the rear ends of the electrocardio connectors and are arranged in five groups, and the rear ends of the electrocardio connecting wires are provided with a plurality of groups of rubber bumps;

the input end of the first electrode is detachably provided with the output end of the electrocardio connecting wire and is arranged under the collarbone of the patient close to the right shoulder;

the input end of the second electrode is detachably provided with the output end of the electrocardio connecting wire and is arranged under the collarbone of the patient close to the left shoulder;

the input end of the third electrode is detachably provided with the output end of the electrocardio connecting wire and is arranged on the right lower abdomen of the patient;

the input end of the fourth electrode is detachably provided with the output end of the electrocardio connecting wire and is arranged on the left lower abdomen of the patient;

and the input end of the fifth electrode is detachably provided with the output end of the electrocardio connecting wire and is arranged on the chest wall of the patient.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the body temperature monitoring assembly includes:

the body temperature connector is connected to the inside of the body temperature connector;

the body temperature connecting wire is arranged at the rear end of the body temperature connector, and the rear end of the body temperature connecting wire is inserted into the input end of the body temperature plug;

a thermometer plug which is installed inside the ear of the patient and is internally provided with a temperature sensor.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the blood oxygen monitoring assembly includes:

a blood oxygen connector connected to the inside of the blood oxygen connector;

the blood oxygen connecting wire is arranged at the front end of the blood oxygen connecting head, and the rear end of the blood oxygen connecting wire is inserted into the input end of the blood oxygen connecting ring.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the blood oxygen connecting ring comprises:

a ring belt worn on a finger of a patient;

the blood oxygen sensor is arranged at the top end of the inner wall of the finger ring belt and can be contacted with the finger of a patient;

the sensor connecting end is electrically connected with the blood oxygen sensor, is arranged at the rear end of the outer wall of the ring belt, and is internally inserted with a blood oxygen connecting wire.

As a preferred embodiment of the multi-parameter monitor according to the present invention, the following applies: the functional module includes:

the 4G/WIFI/Ad hoc network module is arranged in the multi-parameter monitoring host and can enable the multi-parameter monitoring host to be connected with a network, so that connection is not needed;

the man-machine intelligent interaction module can operate the monitor through voice and interact with the patient in a questionnaire mode when a doctor is rescuing the patient or performing other operations in busy medical scenes such as first aid and the like, can assist the medical care to complete the following work, and reduces the workload of the medical care;

the doctor-patient video module can enable doctors to call patients/family members of the patients at any time through doctor terminals, and remotely manage the patients through video or voice modes and the like;

the voice multichannel interaction module is used for interacting with multichannel voice at the platform end through a telephone and is matched with the doctor-patient video module;

the medical record voice input module can enable the emergency record voice to enter an automatic vital sign record table/graph to intelligently generate an emergency record;

the GPS positioning module can share the position of the ambulance in real time, automatically calculate the time of arrival at the hospital and prepare for consultation in advance.

The application method of the multi-parameter monitor comprises the following operation steps:

s1: the blood pressure monitoring assembly, the electrocardiograph monitoring assembly, the body temperature monitoring assembly and the blood oxygen monitoring assembly are arranged on the body of a patient, the multi-parameter monitoring host is arranged on the surface of the blood pressure monitoring assembly, the electrocardiograph monitoring assembly, the body temperature monitoring assembly and the blood oxygen monitoring assembly are connected in the multi-parameter monitoring host, each sensor is connected with the multi-parameter monitoring host, and detection data of each sensor is displayed on the multi-parameter monitoring host;

s2: the data can be displayed on the display terminal by connecting with the display terminal through wireless connection;

s3: when the situation occurs, the doctor-patient video module can be used for knowing the situation of a patient, accurately triage, remotely guiding the emergency, preparing for receiving the emergency in advance, enabling the on-site emergency video to be shared in real time, enabling the emergency site to be seen in real time, guiding the emergency to be treated, enabling the GPS positioning module to be used for nearby selection of a dispatching hospital, facilitating calculation of the time of arrival of an ambulance at the hospital, enabling the emergency site to be capable of recording the emergency process in a voice mode through the medical record voice input module, and sharing the emergency process with a rear hospital in real time;

s4: after the medical device is sent to a hospital, a doctor can be prevented from being blocked during operation through the design of wireless stumbling, and the operation efficiency of the doctor is increased;

s5: after the operation is finished, physical signs of a patient can be monitored in real time through the portable design, and the patient can conveniently and quickly recover.

Compared with the prior art:

the multi-parameter monitoring host body is connected with the blood pressure monitoring assembly, the electrocardiograph monitoring assembly, the body temperature monitoring assembly and the blood oxygen monitoring assembly to monitor electrocardio, blood pressure, blood oxygen, heart rate, respiration and temperature in real time, and is worn on an arm, and each index is monitored in real time by checking the multi-parameter monitoring host body and a remote checking display terminal;

through the design of the multi-parameter monitoring host body, a patient can be connected with the wireless monitoring device when preparing, the wireless monitoring device is connected once, the operation of repeatedly connecting the monitoring device in the painless endoscopic examination process is reduced in the whole-process monitoring, the endoscopic examination turnover and the efficiency are accelerated, the postoperative patient is subjected to centralized monitoring, the potential safety hazard is eliminated, the monitoring device is not required to be connected again, the medical care workload is not increased, the operation of an endoscope doctor is not interfered by a monitoring line, and the operation is convenient;

the patient illness state of the lower-level hospital can be relieved in real time through the functional module, remote consultation can be easily carried out, and the whole-course wireless remote monitoring can be carried out in the bidirectional transferring process of the patient.

The intelligent degree is high, the technology is advanced, a plurality of patent protections are realized, the design and popularization are based on clinical scene demands, the pain point is directly struck, the clinical value is high, the intelligent/informationized application model is compliant with the national medical improvement trend, the mobile monitoring is realized, the new market class is realized, the market is large, and the blue sea is competing.

Drawings

FIG. 1 is a schematic diagram of an overall front view structure provided by the present invention;

FIG. 2 is a schematic diagram of a blood pressure monitor assembly according to the present invention;

FIG. 3 is a schematic diagram of a left-view structure of the blood pressure monitor assembly according to the present invention;

FIG. 4 is a schematic diagram of an NIBP calibration connection provided by the present invention;

FIG. 5 is a schematic diagram of a multi-parameter monitoring host body connection according to the present invention;

FIG. 6 is a schematic diagram of a split structure of a multi-parameter monitoring host body according to the present invention;

FIG. 7 is a schematic diagram of a rear view structure of a multi-parameter monitoring host body according to the present invention;

FIG. 8 is a schematic diagram of a split structure of an electrocardiographic monitoring assembly according to the present invention;

FIG. 9 is a schematic view of a first electrode structure according to the present invention;

fig. 10 is a schematic structural diagram of a body temperature monitoring assembly according to the present invention;

FIG. 11 is a schematic view of an oxygen monitoring assembly according to the present invention;

FIG. 12 is a schematic view of a bottom view of an oxygen monitoring assembly according to the present invention;

FIG. 13 is a schematic view of the placement of leads of an ECG monitoring component provided by the present invention;

FIG. 14 is a diagram showing a multi-parameter monitor system according to the present invention;

fig. 15 is a schematic diagram of a remote centralized monitoring system according to the present invention.

In the figure: the multi-parameter monitoring host body 1, the multi-parameter monitoring host 11, the power supply 12, the storage module 13, the splint 14, the display screen 15, the power supply indicator 16, the charging indicator 17, the blood pressure key 18, the function key 19, the blood pressure interface 110, the electrocardio interface 111, the body temperature interface 112, the blood oxygen interface 113, the charging interface 114, the power supply key 115, the blood pressure monitoring component 2, the cuff 21, the air bag 22, the bag 23, the air tube 24, the spherical air pump 25, the electrocardio monitoring component 3, the electrocardio connector 31, the electrocardio connecting wire 32, the first electrode 33, the second electrode 34, the third electrode 35, the fourth electrode 36, the fifth electrode 37, the body temperature monitoring component 4, the body temperature connector 41, the body temperature connecting wire 42, the body temperature plug 43, the blood oxygen monitoring component 5, the blood oxygen connector 51, the blood oxygen connecting wire 52, the blood oxygen connecting ring 53, the finger ring 531, the blood oxygen sensor 532, the sensor connecting end 533, the display terminal 6, the function module 7, the 4G/WIFI/ad hoc network module 71, the intelligent interaction module 72, the medical video module 73, the multichannel GPS interaction module 74, the medical care recording module 75, the medical care concentrator 75, the wireless positioning module 8, and the GPS module 76.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The invention provides a multi-parameter monitor and a use method thereof, which have the advantages that a patient can be connected with wireless monitoring equipment when preparing, the wireless monitoring equipment can be connected once, the operation of repeatedly connecting the monitoring equipment in the whole-course monitoring process is reduced, the turnover and the efficiency of the endoscopy are quickened, the postoperative patient is intensively monitored, the potential safety hazard is eliminated, the monitoring equipment is not required to be connected again, the medical care workload is not increased, the operation of an endoscope doctor is not interfered by monitoring lines, and the operation is convenient, and the multi-parameter monitor has the advantages that referring to fig. 1-15, the multi-parameter monitor comprises a multi-parameter monitor main body 1, a blood pressure monitoring component 2, an electrocardiographic monitoring component 3, a body temperature monitoring component 4, an blood oxygen monitoring component 5, a display terminal 6, a functional module 7 and a wireless concentrator 8;

the multiparameter monitor consists of a multiparameter monitor main body 1 and a display terminal 6, wherein the multiparameter monitor main body 1 is connected with a blood pressure monitor component 2, an electrocardiograph monitor component 3, a body temperature monitor component 4 and a blood oxygen monitor component 5, and is used for monitoring electrocardiograph, blood pressure, blood oxygen, heart rate, respiration and temperature in real time, the multiparameter monitor main body 1 is worn on an arm, each index is monitored in real time by checking the multiparameter monitor main body 1 and remotely checking the display terminal 6, and through the design of the multiparameter monitor main body 1, a patient can be connected with wireless monitoring equipment when being prepared, the operation of repeatedly connecting monitoring equipment in the whole-course monitoring process is reduced, the turnover and efficiency of the endoscopy are accelerated, the potential safety hazard is eliminated, the monitoring equipment is not required to be connected again, the medical care workload is not increased, the operation of the endoscope is not interfered by monitoring lines, the operation is convenient, the multiparameter monitor main body 1 comprises: the multi-parameter monitoring host 11, the power supply 12, the storage module 13, the clamping plate 14, the display screen 15, the power supply indicator 16, the charging indicator 17, the blood pressure key 18, the function key 19, the blood pressure interface 110, the electrocardio interface 111, the body temperature interface 112, the blood oxygen interface 113, the charging interface 114 and the power supply key 115, the multi-parameter monitoring host 11 is detachably arranged on the surface of the blood pressure monitoring component 2, the power supply 12 is arranged inside the multi-parameter monitoring host 11 and can supply power to the multi-parameter monitoring host 11, the storage module 13 is arranged inside the multi-parameter monitoring host 11 and can locally store medical data, the clamping plate 14 is arranged at the bottom of the multi-parameter monitoring host 11 and clamps the surface of the blood pressure monitoring component 2, the display screen 15 is arranged on the surface of the multi-parameter monitoring host 11 and can check the physical sign data of a patient, a power indicator lamp 16 provided on the left side of the front surface of the multi-parameter monitoring host 11 and capable of displaying the amount of power of the power supply, a charge indicator lamp 17 provided on the right side of the front surface of the multi-parameter monitoring host 11 and capable of displaying the state at the time of charging, a blood pressure key 18 provided on the left side of the front surface of the multi-parameter monitoring host 11 and capable of displaying blood pressure data by one key, a function key 19 provided on the right side of the front surface of the multi-parameter monitoring host 11 and capable of selecting different functions, a charge interface 114 provided on the front side of the right outer wall of the multi-parameter monitoring host 11 and capable of connecting the charge socket and charging the multi-parameter monitoring host 11, a power key 115 provided on the right rear side of the outer wall of the multi-parameter monitoring host 11 and capable of performing startup and key operations on the multi-parameter monitoring host 11, the blood pressure interface 110 is arranged at the left end of the outer wall of the multiparameter monitoring host 11 and can be electrically connected with the blood pressure monitoring component 2, the electrocardio interface 111 is arranged at the left side of the rear end of the outer wall of the multiparameter monitoring host 11 and can be electrically connected with the electrocardio monitoring component 3, the body temperature interface 112 is arranged at the right side of the rear end of the outer wall of the multiparameter monitoring host 11 and can be electrically connected with the body temperature monitoring component 4, and the blood oxygen interface 113 is arranged in the middle of the front end of the outer wall of the multiparameter monitoring host 11 and can be electrically connected with the blood oxygen monitoring component 5.

The blood pressure monitor subassembly 2, its one end electric connection is at the outer wall left end of multiparameter monitor host computer body 1, and the other end is installed on patient's arm, and blood pressure monitor subassembly 2 includes: the cuff 21, the gasbag 22, the clamp bag 23, the trachea 24 and the spherical air pump 25, the cuff 21, it installs on patient's arm, and inside is equipped with blood pressure sensor, the gasbag 22, it sets up in the inside of cuff 21, and can aerify the arm and press down, the clamp bag 23, it sets up on the surface of cuff 21, and inside can be held by splint 14, the trachea 24, it sets up to the Y type, and one end is connected in the inside of blood pressure interface 110, and can make blood pressure interface 110 one end connect standard press, the NIBP is connected to the other end, leak gas and blood pressure warning, and the spherical air pump 25 of other end threaded connection.

The electrocardiograph monitoring component 3, its one end electric connection is in the outer wall rear end left side of multiparameter monitoring host computer body 1, and the other end is through five lead adhesion around patient's chest, and electrocardiograph monitoring component 3 includes: the electrocardiograph connector 31, the electrocardiograph connecting wire 32, the first electrode 33, the second electrode 34, the third electrode 35, the fourth electrode 36 and the fifth electrode 37, the electrocardiograph connector 31 is electrically connected in the electrocardiograph connector 111, the electrocardiograph connecting wire 32 is connected at the rear end of the electrocardiograph connector 31 and is arranged into five groups, the rear end is provided with a plurality of groups of rubber bumps, the first electrode 33 is detachably provided with the input end of the electrocardiograph connecting wire 32, the output end of the electrocardiograph connecting wire 32 is detachably provided with the input end of the first electrode 34, the output end of the electrocardiograph connecting wire 32 is detachably provided with the input end of the second electrode 34, the input end of the third electrode 35 is detachably provided with the output end of the electrocardiograph connecting wire 32, the input end of the fourth electrode 36 is detachably provided with the output end of the electrocardiograph connecting wire 32, the fifth electrode 37 is provided with the left lower abdomen of the patient, and the input end of the fifth electrode 37 is detachably provided with the output end of the electrocardiograph connecting wire 32, and the output end of the chest wall of the patient.

The body temperature guardianship subassembly 4, its one end electric connection is on the outer wall rear end right side of multiparameter guardianship host computer body 1, and the other end inserts in patient's ear and monitors, and body temperature guardianship subassembly 4 includes: body temperature connector 41, body temperature connecting wire 42 and body temperature stopper 43, body temperature connector 41, it is connected in the inside of body temperature interface 112, and body temperature connecting wire 41, it sets up the rear end at body temperature connector 41, and the rear end inserts the input of body temperature stopper 43, and body temperature stopper 43, it installs inside patient's ear, and inside is equipped with temperature sensor.

The blood oxygen monitor component 5, its one end electric connection is in the middle of the outer wall front end of multiparameter monitor host computer body 1, and the other end installs in patient's finger department, and blood oxygen monitor component 5 includes: the blood oxygen connector 51, the blood oxygen connecting wire 52, the blood oxygen connecting ring 53, the finger ring belt 531, the blood oxygen sensor 532 and the sensor connecting end 533, the blood oxygen connector 51 connected in the blood oxygen interface 113, the blood oxygen connecting wire 52 arranged at the front end of the blood oxygen connector 51 and the rear end inserted into the input end of the blood oxygen connecting ring 53, the finger ring belt 531 worn on the finger of the patient, the blood oxygen sensor 532 arranged at the top end of the inner wall of the finger ring belt 531 and capable of contacting with the finger of the patient, and the sensor connecting end 533 electrically connected with the blood oxygen sensor 532 and arranged at the rear end of the outer wall of the finger ring belt 531 and internally inserted with the blood oxygen connecting wire 52.

The display terminal 6 is wirelessly connected with the multi-parameter monitoring host body 1 and can remotely check the physical signs of the patient in real time.

Function module 7, its inside of installing at multiparameter guardianship host computer body 1, and can carry out wireless connection, man-machine intelligent interaction, video interaction, voice interaction, the voice recording input of medical treatment, the function of real-time positioning patient position, can solve subordinate hospital patient's state of illness in real time through function module 7, easily carry out long-range consultation, whole wireless remote monitoring of patient bidirectional transport in-process, function module 7 includes: the system comprises a 4G/WIFI/ad hoc network module 71, a man-machine intelligent interaction module 72, a doctor-patient video module 73, a voice multichannel interaction module 74, a medical record voice input module 75, a GPS positioning module 76,4G/WIFI/ad hoc network module 71, wherein the voice multichannel interaction module 74 is arranged in a multi-parameter monitoring host 11 and can enable the multi-parameter monitoring host 11 to be connected in a network mode without connection, the man-machine intelligent interaction module 72 can operate a monitor through voice and can interact with a patient in a questionnaire mode when a doctor is rescuing the patient or performs other operations in a busy medical scene such as emergency, can assist the doctor to complete the following work, reduces the medical care workload, remotely manages the patient in a video or voice mode, enables the doctor to call the family of the patient at any time through a doctor end, enables the voice multichannel interaction module 74 to interact with the doctor-patient video module 73 through a telephone and a platform end in a multi-channel voice mode, enables the recorded voice input module 75 to enable the recorded voice to record vital sign automatic record/map intelligent GPS positioning record, automatically records the doctor-patient record the vital sign, enables the doctor to arrive at a doctor-patient position to be shared in advance, and a real-time can be prepared for the doctor to meet the position.

And the wireless concentrator 8 is in wireless connection with the multi-parameter monitors, can perform wireless and wired connection with various monitors, and can be connected into a remote centralized monitoring system.

The remote centralized monitoring system is connected with the cloud platform, so that the multi-parameter monitor is connected with the emergency central management platform and the emergency medical staff end, and data are communicated.

In specific use, a person skilled in the art will install the blood pressure monitoring assembly 2, the electrocardiograph monitoring assembly 3, the body temperature monitoring assembly 4 and the blood oxygen monitoring assembly 5 on the body of a patient, install the multiparameter monitoring host 11 on the surface of the blood pressure monitoring assembly 2, and connect the blood pressure monitoring assembly 2, the electrocardiograph monitoring assembly 3, the body temperature monitoring assembly 4 and the blood oxygen monitoring assembly 5 inside the multiparameter monitoring host 11, make each sensor connected with the multiparameter monitoring host 11, make the detection data of each sensor displayed on the multiparameter monitoring host 11, and can be connected with the display terminal 6 through wireless connection, make the data displayed on the display terminal 6, and when the situation happens, can know the condition of the patient through the doctor-patient video module 73, accurately divide the diagnosis, and remotely guide the first aid, make the preparation for the first aid in advance, and can make the on-site first aid video real-time share see the first aid site through the GPS positioning module 76, be convenient for calculating the arrival time of the ambulance of the hospital, make the doctor receive the time of the hospital, make the doctor, and can be prevented from being fast by the doctor through the medical record input module 75, the doctor can be fast after the design of the doctor and the doctor is fast, the real-time can be monitored, the patient can be quickly monitored, and the patient can be protected after the real-time has been planned has been monitored, and has real-time physical symptoms can be monitored.

Although the invention has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. A multi-parameter monitor, characterized in that: comprising the following steps:

the multi-parameter monitor consists of a multi-parameter monitor main body (1) and a display terminal (6), wherein the multi-parameter monitor main body (1) is connected with a blood pressure monitoring component (2), an electrocardiograph monitoring component (3), a body temperature monitoring component (4) and a blood oxygen monitoring component (5), and is used for monitoring electrocardio, blood pressure, blood oxygen, heart rate, respiration and temperature in real time, the multi-parameter monitor main body (1) is worn on an arm, and each index is monitored in real time by checking the multi-parameter monitor main body (1) and remotely checking the display terminal (6);

one end of the blood pressure monitoring component (2) is electrically connected to the left end of the outer wall of the multi-parameter monitoring host body (1), and the other end of the blood pressure monitoring component is arranged on the arm of a patient;

one end of the electrocardiograph monitoring component (3) is electrically connected to the left side of the rear end of the outer wall of the multi-parameter monitoring host body (1), and the other end of the electrocardiograph monitoring component is adhered to the periphery of the chest of a patient through five leads;

one end of the body temperature monitoring component (4) is electrically connected to the right side of the rear end of the outer wall of the multi-parameter monitoring host body (1), and the other end of the body temperature monitoring component is inserted into the ears of a patient for monitoring;

one end of the blood oxygen monitoring component (5) is electrically connected to the middle of the front end of the outer wall of the multi-parameter monitoring host body (1), and the other end of the blood oxygen monitoring component is arranged at the finger of a patient;

the display terminal (6) is in wireless connection with the multi-parameter monitoring host body (1) and can remotely check the physical signs of a patient in real time;

the function module (7) is arranged in the multi-parameter monitoring host body (1) and can perform the functions of wireless connection, man-machine intelligent interaction, video interaction, voice interaction, medical voice recording input and real-time positioning of the position of a patient;

the wireless concentrator (8) is in wireless connection with the multi-parameter monitors, can perform wireless and wired connection on various monitors, and can be connected into a remote centralized monitoring system;

the remote centralized monitoring system is connected with the cloud platform, so that the multi-parameter monitor is connected with the emergency central management platform and the emergency medical staff end, and data are communicated.

2. The multi-parameter monitor as set forth in claim 1, wherein the multi-parameter monitor host body (1) includes:

the multi-parameter monitoring host (11) is detachably arranged on the surface of the blood pressure monitoring component (2);

a power supply (12) which is provided inside the multi-parameter monitoring host (11) and is capable of supplying power to the multi-parameter monitoring host (11);

the storage module (13) is arranged inside the multi-parameter monitoring host (11) and can locally store medical data;

the clamping plate (14) is arranged at the bottom of the multi-parameter monitoring host machine (11) and is clamped with the surface of the blood pressure monitoring component (2);

the display screen (15) is arranged on the surface of the multi-parameter monitoring host (11) and can be used for checking the physical sign data of the patient;

the power supply indicator lamp (16) is arranged on the left side of the rear end of the surface of the multi-parameter monitoring host (11) and can display the electric quantity of the power supply;

the charging indicator lamp (17) is arranged on the right side of the rear end of the surface of the multi-parameter monitoring host (11) and can display the state during charging;

the blood pressure key (18) is arranged at the left side of the front end of the surface of the multi-parameter monitoring host (11) and can display blood pressure data by one key;

the function key (19) is arranged on the right side of the front end of the surface of the multi-parameter monitoring host (11) and can select different functions;

the charging interface (114) is arranged at the front side of the right end of the outer wall of the multi-parameter monitoring host (11), and can connect the charging socket and charge the multi-parameter monitoring host (11);

the power key (115) is arranged at the rear side of the right end of the outer wall of the multi-parameter monitoring host (11) and can start and key operation on the multi-parameter monitoring host (11).

3. A multi-parameter monitor as claimed in claim 2, wherein the multi-parameter monitor host (11) comprises:

the blood pressure interface (110) is arranged at the left end of the outer wall of the multi-parameter monitoring host (11) and can be electrically connected with the blood pressure monitoring component (2);

the electrocardio interface (111) is arranged at the left side of the rear end of the outer wall of the multi-parameter monitoring host (11) and can be electrically connected with the electrocardio monitoring assembly (3);

the body temperature interface (112) is arranged on the right side of the rear end of the outer wall of the multi-parameter monitoring host (11) and can be electrically connected with the body temperature monitoring assembly (4);

the blood oxygen interface (113) is arranged in the middle of the front end of the outer wall of the multi-parameter monitoring host (11) and can be electrically connected with the blood oxygen monitoring component (5).

4. The multi-parameter monitor as set forth in claim 1, wherein the blood pressure monitoring assembly (2) includes:

a cuff (21) which is mounted on the arm of the patient and in which a blood pressure sensor is provided;

an airbag (22) which is provided inside the cuff (21) and can inflate and press the arm;

a clamping pocket (23) which is provided on the surface of the cuff (21) and can be clamped by the clamping plate (14) inside;

the trachea (24) is set to the Y type, and one end is connected in the inside of blood pressure interface (110) to can make blood pressure interface (110) one end connect standard press, the NIBP is connected to the other end, carries out gas leakage and blood pressure warning, and spherical air pump (25) are connected to the other end screw thread.

5. A multi-parameter monitor as claimed in claim 1, wherein the electrocardiographic monitoring assembly (3) comprises:

an electrocardiograph connector (31) electrically connected to the inside of the electrocardiograph interface (111);

the electrocardio connecting wires (32) are connected to the rear ends of the electrocardio connectors (31) and are arranged in five groups, and the rear ends of the electrocardio connecting wires are provided with a plurality of groups of rubber bumps;

the input end of the first electrode (33) is detachably provided with the output end of the electrocardio connecting wire (32) and is arranged under the collarbone of the patient close to the right shoulder;

the input end of the second electrode (34) is detachably provided with the output end of the electrocardio connecting wire (32) and is arranged under the collarbone of the patient close to the left shoulder;

the input end of the third electrode (35) is detachably provided with the output end of the electrocardio connecting wire (32) and is arranged on the right lower abdomen of the patient;

the input end of the fourth electrode (36) is detachably provided with the output end of the electrocardio connecting wire (32) and is arranged on the left lower abdomen of the patient;

and the input end of the fifth electrode (37) is detachably provided with the output end of the electrocardio connecting wire (32) and is arranged on the chest wall of a patient.

6. The multi-parameter monitor as set forth in claim 1, wherein the body temperature monitoring assembly (4) includes:

a body temperature connector (41) connected to the inside of the body temperature connector (112);

the body temperature connecting wire (41) is arranged at the rear end of the body temperature connector (41), and the rear end is inserted into the input end of the body temperature plug (43);

a thermometer (43) which is installed inside the ear of the patient and is internally provided with a temperature sensor.

7. The multi-parameter monitor as set forth in claim 1, wherein the blood oxygen monitoring assembly (5) includes:

an oxygen-blood connector (51) connected to the inside of the oxygen-blood connector (113);

and a blood oxygen connecting wire (52) which is arranged at the front end of the blood oxygen connecting head (51) and the rear end of which is inserted into the input end of the blood oxygen connecting ring (53).

8. The multiparameter monitor of claim 7, wherein the blood oxygen connection ring (53) comprises:

a ring belt (531) worn on the finger of the patient;

an oxygen sensor (532) which is provided at the tip of the inner wall of the finger ring band (531) and can be brought into contact with the finger of the patient;

and a sensor connection end (533) electrically connected to the blood oxygen sensor (532), provided at the rear end of the outer wall of the finger ring band (531), and having a blood oxygen connection line (52) inserted therein.

9. A multi-parameter monitor as claimed in claim 1, wherein the functional module (7) comprises:

the 4G/WIFI/Ad hoc network module (71) is arranged in the multi-parameter monitoring host (11) and can enable the multi-parameter monitoring host (11) to be connected in a network mode, and connection is not needed;

the man-machine intelligent interaction module (72) can operate the monitor through voice and interact with the patient in a questionnaire mode when a doctor is rescuing the patient or performing other operations in a busy medical scene such as emergency treatment, so that the following work can be assisted in medical care, and the medical care workload is reduced;

a doctor-patient video module (73) which enables doctors to call patients/family members of the patients at any time through doctor's end and remotely manage the patients through video or voice and other modes;

a voice multi-channel interaction module (74) which interacts with the platform-side multi-channel voice through telephone and cooperates with the doctor-patient video module (73);

a medical record voice input module (75) capable of enabling emergency record voice entry vital sign automatic record form/map intelligent generation of emergency records;

and the GPS positioning module (76) can share the ambulance position in real time, automatically calculate the time to arrive at the hospital and prepare for consultation in advance.

10. The application method of the multi-parameter monitor is characterized by comprising the following operation steps:

s1: the blood pressure monitoring assembly (2), the electrocardiograph monitoring assembly (3), the body temperature monitoring assembly (4) and the blood oxygen monitoring assembly (5) are arranged on the body of a patient, the multi-parameter monitoring host (11) is arranged on the surface of the blood pressure monitoring assembly (2), the electrocardiograph monitoring assembly (3), the body temperature monitoring assembly (4) and the blood oxygen monitoring assembly (5) are connected in the multi-parameter monitoring host (11), and each sensor is connected with the multi-parameter monitoring host (11), so that the detection data of each sensor is displayed on the multi-parameter monitoring host (11);

s2: can connect with display terminal (6) through the wireless connection, make the data display on the display terminal (6);

s3: when the situation occurs, the doctor-patient video module (73) can be used for knowing the situation of a patient, accurately diagnosing the patient separately, remotely guiding the emergency, preparing for receiving the emergency in advance, enabling the on-site emergency video to be shared in real time, seeing the emergency site, guiding the emergency to treat by the video, selecting and sending the hospital nearby through the GPS positioning module (76), facilitating the calculation of the time when the ambulance arrives at the hospital, enabling the emergency site to record the emergency process in a voice mode through the medical record voice input module (75), and sharing the emergency process with the rear hospital in real time;

s4: after the medical device is sent to a hospital, a doctor can be prevented from being blocked during operation through the design of wireless stumbling, and the operation efficiency of the doctor is increased;

s5: after the operation is finished, physical signs of a patient can be monitored in real time through the portable design, and the patient can conveniently and quickly recover.

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