CN108852344B

CN108852344B - Integrated electrocardiograph monitoring and alarming device of magnetic resonance machine

Info

Publication number: CN108852344B
Application number: CN201810889207.7A
Authority: CN
Inventors: 战跃福; 王若凝; 吴烨华; 尤明; 马隽; 许冬明; 陈建强; 关莹; 王松海
Original assignee: Haikou Peoples Hospital
Current assignee: Haikou Peoples Hospital
Priority date: 2018-08-07
Filing date: 2018-08-07
Publication date: 2024-04-05
Anticipated expiration: 2038-08-07
Also published as: CN108852344A

Abstract

The invention discloses an integrated electrocardiograph monitoring and alarming device of a magnetic resonance machine, which comprises a magnetic resonance machine, an electrocardiograph monitor, a database server, a load balancing server, a mobile terminal, a display screen and a camera, wherein the electrocardiograph monitor is provided with a data acquisition device, the camera is arranged on the magnetic resonance machine, the display screen is arranged on the electrocardiograph monitor, the magnetic resonance machine, the data acquisition device, the camera and the electrocardiograph monitor are all in signal connection with the load balancing server, the load balancing server is in signal connection with the database server, and the electrocardiograph monitor, the display screen and the mobile terminal are all in signal connection with the database server.

Description

Integrated electrocardiograph monitoring and alarming device of magnetic resonance machine

Technical Field

The invention relates to medical equipment, in particular to an integrated electrocardiograph monitoring and alarming device of a magnetic resonance machine.

Background

When a patient is subjected to magnetic resonance examination, the scanning time of the magnetic resonance machine is long under the general condition, the condition of the patient in the examination room can be observed only through an operation room outside glass, but a part of special patients can be subjected to emergency during examination, so that the condition of the patient can be fully known in real time in the operation room, and the dangerous occurrence is avoided.

Disclosure of Invention

Aiming at the prior art, the invention aims to provide the magnetic resonance machine integrated electrocardiograph monitoring alarm device which can realize real-time detection of physiological information of a patient body and limb movements of the patient when the patient is examined and avoid accidents during detection.

The invention provides an integrated electrocardiograph monitoring alarm device of a magnetic resonance machine, which comprises a magnetic resonance machine, an electrocardiograph monitor, a database server, a load balancing server, a mobile terminal, a display screen and a camera, wherein the electrocardiograph monitor is provided with a data acquisition device, the camera is arranged on the magnetic resonance machine, the display screen is arranged on the electrocardiograph monitor, the magnetic resonance machine, the data acquisition device, the camera and the electrocardiograph monitor are all in signal connection with the load balancing server, the load balancing server is in signal connection with the database server, and the electrocardiograph monitor, the display screen and the mobile terminal are all in signal connection with the database server.

Preferably, the data acquisition device comprises an electrode plate, a first sleeve with one end being opened, an air bag, a displacement sensor and an anti-falling device, wherein the top of the first sleeve is provided with a second sleeve, a motor is arranged in the second sleeve, the output end of the motor is provided with a first magnet, the top of the air bag is also provided with a second magnet, the second magnet is positioned below the first magnet, a cavity is arranged inside the first sleeve, the air bag is communicated with the cavity, the displacement sensor is arranged on the inner wall of the second sleeve, the inner wall of the second sleeve is provided with a controller, the displacement sensor is in signal connection with the controller, the controller is in signal connection with the motor, a signal acquisition module is arranged on the electrode plate, the signal acquisition module is in signal connection with a load balancing server, and the anti-falling device is arranged on the second sleeve and is connected with the air bag.

Preferably, the anti-falling device comprises a hose, a vibration sensor and an air pump, wherein the air pump is arranged on the outer wall of the second sleeve, the vibration sensor is arranged on the outer wall of the second sleeve, the hose is used for connecting the air pump with the air bag, the vibration sensor is in signal connection with the controller, and the controller is in signal connection with the air pump.

Preferably, a baffle is arranged between the motor and the air bag, and the baffle is contacted with the air bag.

Preferably, the top of motor is equipped with first magnetism and inhales electric contact, the top of second sleeve inner wall is equipped with the third sleeve, the top in the third sleeve is equipped with the second magnetism and inhales electric contact, be equipped with the power in the second sleeve, the power passes through the second magnetism is inhaled electric contact with first magnetism is inhaled electric contact electricity and is connected, the power with displacement sensor, controller, signal acquisition module, vibration sensor and air pump electricity are connected.

Preferably, the second sleeve is divided into two sections capable of sliding mutually, a spring is arranged at the top in the second sleeve, the bottom of the spring is connected with the baffle, and the motor is embedded in the spring.

Preferably, a connecting piece is arranged in the cavity, and a plurality of vent holes are uniformly formed in the periphery of the connecting piece.

The invention has the beneficial effects that:

according to the integrated electrocardiograph monitoring and alarming device of the magnetic resonance machine, physiological information of a patient body and actions of the patient limbs are collected in real time through the cooperation of the data collecting device, the magnetic resonance machine and the camera, the physiological information and actions of the patient limbs are sent to the database server through the load balancing server, and then the physiological information and actions of the patient limbs are sent to the mobile terminal, the display screen and the electrocardiograph monitoring instrument through the database server, so that medical staff can observe the condition of the patient in real time, and dangerous accidents are avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only preferred embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a first embodiment of an integrated ECG monitoring and alarming device for a magnetic resonance apparatus;

fig. 2 is a schematic structural diagram of a second embodiment of an integrated electrocardiograph monitoring and alarming device of the present invention.

In the figure, 1 is a magnetic resonance machine, 2 is an electrocardiograph monitor, 3 is a database server, 4 is a load balancing server, 5 is a mobile terminal, 6 is a display screen, 7 is a camera, 8 is an electrode plate, 9 is a first sleeve, 10 is an air bag, 11 is a displacement sensor, 12 is a second sleeve, 13 is a motor, 14 is a first magnet, 15 is a second magnet, 16 is a cavity, 17 is a controller, 18 is a signal acquisition module, 19 is a hose, 20 is a vibration sensor, 21 is an air pump, 22 is a baffle, 23 is a first magnetic attraction electric contact, 24 is a third sleeve, 25 is a second magnetic attraction electric contact, 26 is a power supply, 27 is a spring, 28 is a connecting piece, and 29 is a vent hole.

Detailed Description

For a better understanding of the technical content of the present invention, specific examples are provided below and the present invention is further described with reference to the accompanying drawings.

Example 1

Referring to fig. 1, the invention provides an integrated electrocardiograph monitoring alarm device of a magnetic resonance machine, which comprises a magnetic resonance machine 1, an electrocardiograph monitor 2, a database server 3, a load balancing server 4, a mobile terminal 5, a display screen 6 and a camera 7, wherein the electrocardiograph monitor 2 is provided with a data acquisition device, the camera 7 is arranged on the magnetic resonance machine 1, the display screen 6 is arranged on the electrocardiograph monitor 2, the magnetic resonance machine 1, the data acquisition device, the camera 7 and the electrocardiograph monitor 2 are all in signal connection with the load balancing server 4, the load balancing server 4 is in signal connection with the database server 3, the electrocardiograph monitor 2, the display screen 6 and the mobile terminal 5 are all in signal connection with the database server 3, through the cooperation of the data acquisition device, the magnetic resonance machine 1 and the camera 7, the physiological information of the body of the patient and the limb actions of the patient are all acquired in real time and are sent to the database server 3 through the load balancing server 4, and then are sent to the mobile terminal 5, the display screen 6 and the electrocardiograph monitor 2 through the database server 3, so that medical staff can observe the condition of the patient in real time, dangerous accidents are avoided, the speed of data transmission can be effectively improved through the action of the load balancing server 4, the data transmission speed of the data can be improved through the load balancing server 4 due to the fact that the acquired data volume of the patient is overlarge when the patient is monitored, the occurrence of dangerous accidents caused by the fact that important data indexes cannot be timely focused by the medical staff when the patient is monitored due to the fact that the transmission speed is too slow is avoided, in addition, the information of the monitored patient can be stored through the database server 3, in addition, the medical staff can compare the monitored data of the patient to be monitored with the data stored in the database server 3 through the mobile terminal 5, so that the physical condition of the patient can be accurately determined, in addition, the monitored data of the patient can be timely acquired in an unlimited place through the mobile terminal 5, so that the flexibility of the monitoring process is greatly improved, and when the monitored data of the patient is abnormal, the mobile terminal 5 can timely receive the reminding of the monitored data, so that the patient under the abnormal condition can be guaranteed to be preferentially processed.

Example two

Referring to fig. 2, the difference between the present embodiment and the first embodiment is that the data acquisition device includes an electrode plate 8, a first sleeve 9 with an opening at one end, an air bag 10, a displacement sensor 11 and an anti-drop device, the top of the first sleeve 9 is provided with a second sleeve 12, a motor 13 is disposed in the second sleeve 12, an output end of the motor 13 is provided with a first magnet 14, the top of the air bag 10 is also provided with a second magnet 15, the second magnet 15 is located below the first magnet 14, a cavity 16 is disposed inside the first sleeve 9, the air bag 10 is communicated with the cavity 16, the displacement sensor 11 is disposed on an inner wall of the second sleeve 12, the inner wall of the second sleeve 12 is provided with a controller 17, the displacement sensor 11 is in signal connection with the controller 17, the controller 17 is in signal connection with the motor 13, the electrode plate 8 is provided with a signal acquisition module 18, the signal acquisition module 18 is in signal connection with the load balancing server 4, the anti-falling device is arranged on the second sleeve 12 and is connected with the air bag 10, when the data acquisition device is used for acquiring patient data, the first sleeve 9 is sucked with the skin of a human body through the anti-falling device, physiological information of the human body is acquired in real time through the cooperation of the electrode plate 8 and the signal acquisition module 18, when the patient breathes, the chest and the abdominal cavity of the patient can move up and down, when the patient breathes, the skin surface of the patient is tense due to the inspiration, and the chest and the abdominal cavity can move upwards, the displacement sensor 11 transmits the signal of the upward movement to the controller 17, then the output end of the motor 13 is controlled to rotate through the controller 17, when the arrangement of the magnetic poles makes the first magnet 14 repel the second magnet 15, so that the second magnet 15 on the top of the air bag 10 is repelled to squeeze the air bag 10, the air in the air bag 10 is input into the cavity 16, the pain feeling of the skin caused by the excessively high negative pressure in the cavity 16 is avoided, when the patient exhales, the skin surface of the patient is relaxed due to inspiration, and the chest cavity and the abdominal cavity move downwards, the displacement sensor 11 sends a signal for downward movement to the controller 17, then the controller 17 controls the output end of the motor 13 to rotate, and when the arrangement of the magnetic poles of the first magnet 14 and the second magnet 15 makes the first magnet 14 and the second magnet 15 attract each other, the second magnet 15 on the top of the air bag 10 is attracted to pull up the air bag 10, so that the air in the cavity 16 is input into the cavity 10 due to the excessively high negative pressure, and the patient can not rotate at the same time of the low negative pressure sensor 13, and the patient can not rotate the device to cause the problem of the output of the device when the patient rotates at the same time of the speed of the patient, and the patient can not rotate the patient 13 due to the fact that the motor is controlled by the movement of the motor 13.

Specifically, the anti-falling device comprises a hose 19, a vibration sensor 20 and an air pump 21, the air pump 21 is arranged on the outer wall of the second sleeve 12, the vibration sensor 20 is arranged on the outer wall of the second sleeve 12, the hose 19 is used for connecting the air pump 21 with the air bag 10, the vibration sensor 20 is in signal connection with the controller 17, the controller 17 is in signal connection with the air pump 21, when the first sleeve 9 is in contact with the surface of a human body, the air pump 21 pumps part of air in the cavity 16 through the air bag 10, so that initial fixation is carried out when the surface of the human body is jointed, the flow of jointing the skin caused by falling is too complex, real-time induction of the vibration sensor 20 is carried out, when the action of limbs of a patient is severe, the air pump 16 can be pumped by the air pump 21 through the air pump 21 when the vibration frequency reaches the threshold value of the vibration sensor 20, so that the negative pressure in the cavity 16 is higher, the first sleeve 9 is tightly jointed with the skin, and the air pump 21 can be easily supplemented with the air pump 10 because the contour of the human body is not smooth, and the air in the cavity 16 is easy to leak.

The baffle 22 is arranged between the motor 13 and the air bag 10, the baffle 22 is in contact with the air bag 10, and the gas exhaust process is not smooth due to the fact that the generated gas of the air bag 10 can not be exhausted in the moment and is deformed under the action of the baffle 22.

The top of motor 13 is equipped with first magnetism and attracts electric contact 23, the top of second sleeve 12 inner wall is equipped with third sleeve 24, the top in the third sleeve 24 is equipped with second magnetism and attracts electric contact 25, be equipped with power 26 in the second sleeve 12, power 26 passes through second magnetism is inhaled electric contact 25 with first magnetism and is inhaled electric contact 23 electricity and be connected, power 26 with displacement sensor 11, controller 17, signal acquisition module 18, vibration sensor 20 and air pump 21 electricity are connected, in addition, second sleeve 12 divide into two sections that can slide each other, the top in the second sleeve 12 is equipped with spring 27, the bottom of spring 27 with baffle 22 is connected, motor 13 inlays and locates in the spring 27, through pressing the upper end of second sleeve 12 for first magnetism is inhaled electric contact 23 with second magnetism is inhaled electric contact 25 and is overcome the elasticity looks pull-up of spring 27, power 26 then carries out the power supply to this device and can avoid the second magnetism to inhale electric contact 25 to have been overcome when second magnetism is inhaled electric contact 25 to take place for a long time, the second magnetism is inhaled electric contact 25 and is avoided second magnetism to inhale electric contact 25.

In addition, the connecting piece 28 is arranged in the cavity 16, a plurality of vent holes 29 are uniformly formed in the periphery of the connecting piece 28, and the air pressure in the cavity 16 can be effectively ensured to be balanced during air suction and air extraction through the uniform distribution of the vent holes 29, so that the condition that the contact position of the first sleeve 9 and the skin leaks air is avoided.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. The utility model provides a magnetic resonance machine integration electrocardiograph guardianship alarm device which is characterized in that, including magnetic resonance machine, electrocardiograph guardianship ware, database server, load balancing server, mobile terminal, display screen and camera, be equipped with data acquisition device on the electrocardiograph guardianship ware, the camera is located on the magnetic resonance machine, the display screen is located on the electrocardiograph guardianship ware, magnetic resonance machine, data acquisition device, camera and electrocardiograph guardianship ware all with load balancing server signal connection, load balancing server with database server signal connection, electrocardiograph guardianship ware, display screen and mobile terminal all with database server signal connection;

the data acquisition device comprises an electrode plate, a first sleeve with one end being opened, an air bag, a displacement sensor and an anti-falling device, wherein the top of the first sleeve is provided with a second sleeve, a motor is arranged in the second sleeve, the output end of the motor is provided with a first magnet, the top of the air bag is also provided with a second magnet, the second magnet is positioned below the first magnet, a cavity is formed in the first sleeve, the air bag is communicated with the cavity, the displacement sensor is arranged on the inner wall of the second sleeve, a controller is arranged on the inner wall of the second sleeve, the displacement sensor is in signal connection with the controller, the controller is in signal connection with the motor, a signal acquisition module is arranged on the electrode plate, the signal acquisition module is in signal connection with the load balancing server, and the anti-falling device is arranged on the second sleeve and is connected with the air bag.

The anti-falling device comprises a hose, a vibration sensor and an air pump, wherein the air pump is arranged on the outer wall of the second sleeve, the vibration sensor is arranged on the outer wall of the second sleeve, the hose is used for connecting the air pump with the air bag, the vibration sensor is in signal connection with the controller, and the controller is in signal connection with the air pump;

the cavity is internally provided with a connecting piece, and the periphery of the connecting piece is uniformly provided with a plurality of vent holes.

2. The integrated electrocardiograph monitoring and alarming device of claim 1, wherein a baffle is arranged between the motor and the air bag, and the baffle is contacted with the air bag.

3. The integrated electrocardiograph monitoring and alarming device of claim 2, wherein a first magnetic attraction electric contact is arranged at the top of the motor, a third sleeve is arranged at the top of the inner wall of the second sleeve, a second magnetic attraction electric contact is arranged at the top in the third sleeve, a power supply is arranged in the second sleeve, the power supply is electrically connected with the first magnetic attraction electric contact through the second magnetic attraction electric contact, and the power supply is electrically connected with the displacement sensor, the controller, the signal acquisition module, the vibration sensor and the air pump.

4. The integrated electrocardiograph monitoring and alarming device of claim 3, wherein the second sleeve is divided into two sections capable of sliding with each other, a spring is arranged at the top in the second sleeve, the bottom of the spring is connected with the baffle, and the motor is embedded in the spring.