CN108420422B

CN108420422B - Intracardiac branch of academic or vocational study control first aid device

Info

Publication number: CN108420422B
Application number: CN201810326011.7A
Authority: CN
Inventors: 王国栋
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-04-12
Filing date: 2018-04-12
Publication date: 2021-03-05
Anticipated expiration: 2038-04-12
Also published as: CN108420422A

Abstract

The invention discloses a monitoring first-aid device for cardiology, which belongs to the technical field of medical instruments and mainly comprises a moving component and a first-aid device, wherein the first-aid device comprises a control box, a defibrillation device, a resuscitation device, a monitoring device, a breathing device and a control panel; the control box is connected with the defibrillation device, the resuscitation device, the monitoring device, the breathing device, the control panel, the telescopic motor controller, the first motor, the second motor and the rotating motor. In a word, the invention integrates various devices required to be used, effectively saves space, has simple operation and high intelligent degree, and effectively relieves the working pressure of guardians.

Description

Intracardiac branch of academic or vocational study control first aid device

Technical Field

The invention relates to the technical field of medical instruments, in particular to a monitoring first-aid device for cardiology department.

Background

Heart disease is a relatively common disease of the circulatory system. The circulatory system is composed of heart, blood vessels and neurohumoral tissues for regulating blood circulation, and circulatory diseases, also called cardiovascular diseases, including diseases of all the above tissues and organs belong to common diseases in the field of internal diseases, wherein most of the heart diseases affect the labor force of patients remarkably. After birth, the heart is affected by external or internal factors. Such as: coronary atherosclerotic heart disease, rheumatic heart disease, hypertensive heart disease, pulmonary heart disease, infectious heart disease, endocrine heart disease, hematologic heart disease, and nutritional metabolic heart disease. With the continuous development of society and the continuous progress of science and technology, the living speed of people is faster and faster, the living pressure is higher and higher, and the heart diseases are more and more.

In clinical practice, cardiovascular internal medicine patient often has the difficulty of breathing, because the heart can not powerful blood transfusion and the phenomenon of the blood transfusion of indirection inordinate playing, causes arrhythmia and sudden death easily, when carrying out cardiovascular patient and resuming treatment, need carry out incessant detection treatment to the patient, prevents to breathe and breaks off and causes the death, and current intracardiac internal medicine thorax monitoring first aid device complex operation uses the trouble, has brought the inconvenience for medical staff's work. Therefore, there is a need for a cardiology monitoring first aid device to address these problems.

Disclosure of Invention

The invention solves the technical problem that the traditional thoracic cavity monitoring and first-aid device for the department of cardiology is complex in operation and the like.

The technical scheme includes that the monitoring emergency device for the cardiology department mainly comprises a moving component and an emergency device, wherein the moving component comprises two bases, two vertical expansion plates, two moving rails and two infrared aligning devices, the two bases are distributed in a bilateral symmetry manner, the upper ends of the bases are respectively connected with the vertical expansion plates through a telescopic motor, the upper ends of the vertical expansion plates are respectively fixed with one moving rail, a rail motor is arranged in each moving rail, each infrared aligning device comprises a transmitting device and a receiving device, the transmitting device and the receiving device are symmetrically positioned on the inner side surfaces of the two vertical expansion plates in the bilateral symmetry manner, a telescopic motor controller is arranged at the bottom of each vertical expansion plate, and the infrared aligning devices and the telescopic motors are connected with the telescopic motor controllers; the whole first-aid device is a cuboid, the left end and the right end of the first-aid device are connected with track motors on the left side and the right side through connecting rods, a rotating motor is arranged at the connecting position of the connecting rods and the first-aid device, the first-aid device comprises a control box, a defibrillation device, a resuscitation device, a monitoring device, a breathing device and a control panel, the control box is located in the center of the interior of the first-aid device, the defibrillation device and the resuscitation device are located on the upper top surface of the first-aid device, the monitoring device is located on the lower bottom surface of the first-aid device, the breathing device is located on the rear side surface of; the defibrillation device is connected with two electrode devices, each electrode device comprises a plate electrode, a telescopic motor rod and a first motor, the plate electrode is connected with the first motor through the telescopic motor rod, the resuscitation device is connected with a resuscitation mechanical device, the resuscitation mechanical device comprises an electric mechanical arm, a fixing plate and a second motor, the electric mechanical arm is arranged in the center of the upper surface of the fixing plate, the second motor is provided with two motors which are respectively arranged at the front end and the rear end of the bottom surface of the fixing plate, track plates are covered on the outer side surfaces of the defibrillation device and the resuscitation device, a long track is respectively transversely arranged at the upper end and the lower end of each track plate, a short track is respectively transversely arranged in the middle of the left end and the right end of each track plate, the two long tracks are respectively connected with the second motors, and; the left side of the monitoring device is provided with a heart monitoring device, the heart monitoring device is externally connected with an electric patch through a data line, and the right side of the monitoring device is provided with an infrared temperature measuring device; the breathing device sequentially comprises an oxygen supply air inlet interface, a temperature and humidity adjusting module, a rate control module and a disinfection cabin from left to right, wherein an oxygen supply air outlet interface is arranged on the left side wall in the disinfection cabin and externally connected with a breathing mask; a display screen is arranged in the middle of the control panel, a control button is arranged at the lower end of the display screen, a camera is arranged at the upper right corner of the control panel, and a microphone and a loudspeaker are sequentially arranged at the lower end of the camera; the control box is internally provided with a central processing unit and a power distribution controller, and is connected with the defibrillation device, the resuscitation device, the monitoring device, the breathing device, the control panel, the telescopic motor controller, the first motor, the second motor and the rotating motor.

Furthermore, the electric mechanical arm comprises a telescopic base, a vibration rod and a rubber sucker, wherein the upper end of the telescopic base is connected with the lower end of the rubber sucker through the vibration rod.

Furthermore, an overvoltage protection controller is arranged in the telescopic base, a pressure sensing chip is arranged in the rubber sucker, and the pressure sensing chip is connected with the overvoltage protection controller. Through the cooperation of the overvoltage protection controller and the pressure sensing chip, the damage to a patient caused by overlarge pressure of the vibration rod of the electric mechanical arm is prevented.

Furthermore, a communicator is further arranged in the control box, is located above the central processing unit and is used for carrying out video call or audio call with the mobile equipment. The patient can carry out video conversation or audio conversation with family members etc. through display screen, camera, microphone and speaker, and the family members and patient of being convenient for communicate and exchange, improve patient's mental state.

Furthermore, a temperature and humidity sensor and a temperature and humidity regulator are arranged in the temperature and humidity regulating module, and the temperature and humidity sensor is connected with the temperature and humidity regulator. The temperature and humidity of the supplied oxygen can be adjusted through the temperature and humidity adjusting module, so that the patient can inhale milder and more comfortable, and the discomfort of the patient with respiratory tract sensitivity caused by the fact that the temperature and humidity of the inhaled oxygen are not suitable can be avoided.

Further, be equipped with valve mouth control panel and flow sensor in the rate control module, flow sensor with the valve mouth control panel is connected. Can improve the oxygen inhalation amount of the patient and avoid the damage of the body of the patient caused by the situations of oxygen intoxication and the like.

Furthermore, ultraviolet disinfection lamps are arranged on the upper side wall and the lower side wall in the disinfection cabin, and a fixing frame is arranged on the bottom surface. Can carry out convenient disinfection to respirator, avoid carrying the germ at respirator and then make the germ infringe patient's health when taking.

Furthermore, a filter disc is arranged at the oxygen supply and air inlet interface. Excessive moisture can be filtered effectively, and impurities are prevented from entering the temperature and humidity adjusting module.

Furthermore, the filter sheet is filled with activated carbon. The activated carbon has good adsorption effect and meets the required action requirement of the filter.

The working method of the invention is that the moving components of the device are fixed on the sickbed, specifically two bases are respectively fixed on two sides of the sickbed, the position of a track motor in a moving track is adjusted, connecting rods on two sides of the emergency treatment device are fixed on the track motor, the emergency treatment device is debugged, the device is started through a control button of a control panel, an electric patch is pasted on the heart position of a patient, the monitoring device monitors the physical signs of the patient through a heart monitoring device and an infrared temperature measuring device, when the patient has abnormal heartbeat, a control box controls a rotating motor to rotate, one side surfaces of the defibrillation device and a resuscitation device face the patient, an electrode device and a resuscitation mechanical arm adjust the accurate positions through a short track and a long track, and simultaneously the resuscitation device is sequentially adopted to physically press the heart and the defibrillation device to carry out electrode electric shock to emergency treatment on the patient with the heart disease, meanwhile, medical staff can take the breathing mask from the disinfection bin to supply oxygen to the patient; in daily monitoring, the patient can also carry out video call or voice call through a control panel of the emergency treatment device, relatives and the like, so that the emotion of the patient is improved, and the psychological burden of heart disease of the patient is relieved.

The invention has the beneficial effects that:

(1) the invention integrates various devices required to be used in a rotating mode, effectively saves space, is more convenient for emergency treatment and is simple to operate.

(2) The heart condition of the patient is dynamically monitored through the cooperation between the control box and each device, the degree of intelligence is high, the working pressure of a guardian is effectively relieved, first-time first aid can be performed in an emergency, which is very important for the patient, and the life safety of the patient is effectively guaranteed.

(3) According to the invention, the temperature and humidity of the supplied oxygen can be regulated through the temperature and humidity regulating module, so that the patient can inhale milder and more comfortable, and discomfort of the patient with respiratory tract sensitivity caused by the fact that the temperature and humidity of the inhaled oxygen are not appropriate is avoided.

(4) The invention can conveniently disinfect the breathing mask through the disinfection cabin, and therefore, germs are prevented from being carried on the breathing mask when the breathing mask is taken, and further, the germs invade the body of a patient.

(5) The invention can improve the oxygen inhalation amount of the patient through the rate control module, and avoid the damage to the body of the patient caused by the situations of oxygen intoxication and the like.

(6) According to the invention, through the communicator, video call or audio call can be carried out between the patient and the family members, so that the family members and the patient can conveniently communicate, the psychological state of the patient is improved, and the family members can conveniently know the current situation of the patient in time.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the control box of the invention.

FIG. 3 is a schematic view of the electrode assembly of the present invention.

FIG. 4 is a schematic view of an electric robot according to the present invention.

Fig. 5 is a schematic structural diagram of the monitoring device of the present invention.

Fig. 6 is a schematic view of the structure of the breathing apparatus of the present invention.

Wherein, 1-motion component, 11-base, 12-vertical expansion plate, 13-motion rail, 131-track motor, 14-infrared docking device, 14 a-transmitting device, 14 b-receiving device, 15-expansion motor, 16-expansion motor controller, 2-emergency device, 21-connecting rod, 22-rotating motor, 3-control box, 31-central processor, 32-distribution controller, 33-communicator, 4-defibrillation device, 41-electrode device, 411-electrode plate, 412-expansion motor rod, 413-motor I, 5-resuscitation device, 51-resuscitation mechanical device, 511-electric mechanical arm, 5111-expansion base, 5112-vibration rod, 5113-rubber sucker, 5114-overvoltage protection controller, 5115-pressure sensing chip, 512-fixing plate, 513-motor II, 6-monitoring device, 61-heart monitoring device, 611-electric patch, 62-infrared temperature measuring device, 7-breathing device, 71-oxygen supply air inlet interface, 711-filter, 72-temperature and humidity adjusting module, 721-temperature and humidity sensor, 722-temperature and humidity adjuster, 73-speed control module, 731-valve control plate, 732-flow sensor, 74-disinfection cabin, 741-ultraviolet disinfection lamp, 742-fixing frame, 75-oxygen supply air outlet interface, 8-control panel, 81-display screen, 82-control button, 83-camera, 84-microphone, 85-loudspeaker, ultraviolet disinfection lamp, and control panel, 9-track plate, 91-long track, 92-short track.

Detailed Description

As shown in fig. 1, an intracardiac monitoring first-aid device mainly comprises a motion member 1 and a first-aid device 2, wherein the motion member 1 comprises bases 11, vertical expansion plates 12, motion rails 13 and infrared alignment devices 14, the bases 11 are provided with two bases 11 which are bilaterally and symmetrically distributed, the upper ends of the bases 11 are respectively connected with the vertical expansion plates 12 through a telescopic motor 15, the upper ends of the vertical expansion plates 12 are respectively fixed with one motion rail 13, a rail motor 131 is arranged in the motion rail 13, the infrared alignment devices 14 are composed of a transmitting device 14a and a receiving device 14b, the transmitting device 14a and the receiving device 14b are bilaterally and symmetrically positioned on the inner side surfaces of the two vertical expansion plates 12, the bottom of each vertical expansion plate 12 is provided with a telescopic motor controller 16, and the infrared alignment devices 14 and the telescopic motors 15 are connected with the telescopic motor controller 16; the whole first-aid device 2 is a cuboid, the left end and the right end are connected with the track motors 131 on the left side and the right side through the connecting rod 21, the rotating motor 22 is arranged at the joint of the connecting rod 21 and the first-aid device 2, the first-aid device 2 comprises a control box 3, a defibrillation device 4, a resuscitation device 5, a monitoring device 6, a breathing device 7 and a control panel 8, the control box 3 is positioned at the center position inside the first-aid device 2, the defibrillation device 4 and the resuscitation device 5 are positioned on the upper top surface of the first-aid device 2, the monitoring device 6 is positioned on the lower bottom surface of the first-aid device 2, the breathing device 7 is positioned on the rear side surface of the first-aid; the defibrillation device 4 is connected with two electrode devices 41, as shown in fig. 3, each electrode device 41 comprises an electrode plate 411, a telescopic motor rod 412 and a first motor 413, the electrode plates 411 are connected with the first motor 413 through the telescopic motor rods 412, the resuscitation device 5 is connected with a resuscitation mechanical device 51, the resuscitation mechanical device 51 comprises an electric mechanical arm 511, a fixing plate 512 and a second motor 513, the electric mechanical arm 511 is arranged at the center of the upper surface of the fixing plate 512, the second motor 513 is provided with two short rails 92 respectively arranged in the middle of the left end and the right end of the fixing plate 512, the outer side surfaces of the defibrillation device 4 and the resuscitation device 5 are covered with a track plate 9, the upper end and the lower end of the track plate 9 are respectively and transversely provided with a long rail 91, the two long rails 91 are respectively and transversely provided with two short rails 92, the two long rails 91 are respectively connected with the two second motors 513; as shown in fig. 5, a heart monitoring device 61 is arranged on the left side of the monitoring device 6, the heart monitoring device 61 is externally connected with an electric patch 611 through a data line, and an infrared temperature measuring device 62 is arranged on the right side of the monitoring device 6; the breathing device 7 sequentially comprises an oxygen supply air inlet interface 71, a temperature and humidity adjusting module 72, a rate control module 73 and a disinfection cabin 74 from left to right, an oxygen supply air outlet interface 75 is arranged on the left side wall in the disinfection cabin 74, a breathing mask is externally connected with the oxygen supply air outlet interface 75, and a filter plate 711 is arranged at the oxygen supply air inlet interface 71. Excessive moisture can be effectively filtered, and impurities are prevented from entering the temperature and humidity adjustment module 73. The filter 711 is filled with activated carbon. The activated carbon has good adsorption effect and meets the required action requirement of the filter plate 711; a display screen 81 is arranged in the middle of the control panel 8, a control button 82 is arranged at the lower end of the display screen 81, a camera 83 is arranged at the upper right corner of the control panel 8, and a microphone 84 and a loudspeaker 85 are sequentially arranged at the lower end of the camera 83; as shown in fig. 2, a central processing unit 31 and a power distribution controller 32 are disposed in the control box 3, a communicator 33 is further disposed in the control box 3, the communicator 33 is located above the central processing unit 31, and the communicator 33 is used for performing a video call or an audio call with a mobile device. The patient can carry out video call or audio call with family members and the like through the display screen 81, the camera 83, the microphone 84 and the loudspeaker 85, the family members and the patient can conveniently communicate and exchange, and the psychological state of the patient is improved. The control box 3 is connected with the defibrillation device 4, the resuscitation device 5, the monitoring device 6, the breathing device 7, the control panel 8, the telescopic motor controller 16, the first motor 413, the second motor 513 and the rotating motor 22.

As shown in fig. 4, the electromechanical arm 511 includes a telescopic base 5111, a vibration rod 5112 and a rubber suction cup 5113, wherein the upper end of the telescopic base 5111 is connected to the lower end of the rubber suction cup 5113 via the vibration rod 5112. An overvoltage protection controller 5114 is arranged in the telescopic base 5111, a pressure sensing chip 5115 is arranged in the rubber suction cup 5113, and the pressure sensing chip 5115 is connected with the overvoltage protection controller 5114. The over-pressure protection controller 5114 and the pressure sensing chip 5115 cooperate to prevent the shock rod 5112 of the electro-mechanical arm 511 from being damaged by the over-pressure.

As shown in fig. 6, a temperature and humidity sensor 721 and a temperature and humidity regulator 722 are provided in the temperature and humidity control module 72, and the temperature and humidity sensor 721 is connected to the temperature and humidity regulator 722. The temperature and humidity of the supplied oxygen can be adjusted through the temperature and humidity adjusting module 72, so that the patient can inhale more mildly and more comfortably, and discomfort of the patient with respiratory tract sensitivity caused by the fact that the temperature and humidity of the inhaled oxygen are not appropriate can be avoided. A valve port control plate 731 and a flow sensor 732 are provided in the rate control module 73, and the flow sensor 732 is connected to the valve port control plate 731. Can improve the oxygen inhalation amount of the patient and avoid the damage of the body of the patient caused by the situations of oxygen intoxication and the like. The upper and lower side walls of the disinfection chamber 74 are provided with ultraviolet disinfection lamps 741, and the bottom surface is provided with a fixing frame 742. Can carry out convenient disinfection to respirator, avoid carrying the germ at respirator and then make the germ infringe patient's health when taking.

The working method of the invention comprises the steps of fixing the moving component 1 of the device on a sickbed, specifically fixing two bases 11 on two sides of the sickbed respectively, adjusting the positions of track motors 131 in the moving rails 13 to be corresponding, fixing connecting rods 21 on two sides of the emergency device 2 on the track motors 131, adjusting the emergency device 2, starting the device through control buttons 82 of a control panel 8, attaching an electric patch 611 on the heart position of a patient, monitoring the physical signs of the patient through a heart monitoring device 61 and an infrared temperature measuring device 62 by a monitoring device 6, controlling a rotary motor 22 to rotate by a control box 3 when the heart beat of the patient is abnormal, enabling one side surfaces of a defibrillation device 4 and a resuscitation device 5 to face the patient, adjusting the accurate positions of an electrode device 41 and a resuscitation mechanical arm 51 through a short rail 92 and a long rail 91, and simultaneously physically pressing the heart and the defibrillation device 4 by the resuscitation device 5 according to the actual heart condition to perform electrode electric shock on the heart patient Emergency first aid is carried out, and medical personnel can take the breathing mask from the disinfection bin 74 to supply oxygen to the patient; in daily monitoring, the patient can also carry out video call or voice call with relatives and the like through the control panel 8 of the emergency treatment device 2, so that the emotion of the patient is improved, and the psychological burden of heart disease of the patient is relieved.

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

Claims

1. The monitoring first-aid device for the cardiology department is characterized by mainly comprising a moving component (1) and a first-aid device (2), wherein the moving component (1) comprises bases (11), vertical expansion plates (12), moving rails (13) and infrared aligning devices (14), the bases (11) are arranged in two numbers, the two bases (11) are distributed in a bilateral symmetry manner, the upper ends of the bases (11) are respectively connected with the vertical expansion plates (12) through an expansion motor (15), the upper ends of the vertical expansion plates (12) are respectively fixed with one moving rail (13), track motors (131) are arranged in the moving rails (13), the infrared aligning devices (14) are composed of transmitting devices (14a) and receiving devices (14b), the transmitting devices (14a) and the receiving devices (14b) are bilaterally and symmetrically positioned on the inner side faces of the two vertical expansion plates (12), a telescopic motor controller (16) is arranged at the bottom of the vertical telescopic plate (12), and the infrared alignment device (14) and the telescopic motor (15) are connected with the telescopic motor controller (16); the whole first-aid device (2) is a cuboid, the left end and the right end of the first-aid device (2) are connected with track motors (131) on the left side and the right side through connecting rods (21), a rotary motor (22) is arranged at the joint of the connecting rods (21) and the first-aid device (2), the first-aid device (2) comprises a control box (3), a defibrillation device (4), a resuscitation device (5), a monitoring device (6), a breathing device (7) and a control panel (8), the control box (3) is located in the center of the interior of the first-aid device (2), the defibrillation device (4) and the resuscitation device (5) are located on the upper top surface of the first-aid device (2), the monitoring device (6) is located on the lower bottom surface of the first-aid device (2), the breathing device (7) is located on the rear side surface of the first-aid device (2), and the control; the defibrillation device (4) is connected with two electrode devices (41), each electrode device (41) comprises an electrode plate (411), a telescopic motor rod (412) and a motor I (413), each electrode plate (411) is connected with the corresponding motor I (413) through the corresponding telescopic motor rod (412), each resuscitation device (5) is connected with a resuscitation mechanical device (51), each resuscitation mechanical device (51) comprises an electric mechanical arm (511), a fixing plate (512) and a motor II (513), each electric mechanical arm (511) is arranged at the center of the upper surface of the corresponding fixing plate (512), the two motors (513) are arranged at the front end and the rear end of the bottom surface of the corresponding fixing plate (512), the outer side surfaces of the defibrillation device (4) and the track resuscitation device (5) are covered with a plate (9), the upper end and the lower end of the track plate (9) are respectively and transversely provided with a long track (91), the middle of the left end and the right end of the track plate (9) is respectively and transversely provided, the two long tracks (91) are respectively connected with the two motors II (513), and the two short tracks (92) are respectively connected with the motors I (413); a heart monitoring device (61) is arranged on the left side of the monitoring device (6), the heart monitoring device (61) is externally connected with an electric patch (611) through a data line, and an infrared temperature measuring device (62) is arranged on the right side of the monitoring device (6); the breathing device (7) sequentially comprises an oxygen supply air inlet interface (71), a temperature and humidity adjusting module (72), a rate control module (73) and a disinfection cabin (74) from left to right, wherein a filter (711) is arranged at the oxygen supply air inlet interface (71), activated carbon is filled in the filter (711), an oxygen supply air outlet interface (75) is arranged on the left side wall in the disinfection cabin (74), the oxygen supply air outlet interface (75) is externally connected with a breathing mask, a valve port control plate (731) and a flow sensor (732) are arranged in the rate control module (73), and the flow sensor (732) is connected with the valve port control plate (731); a display screen (81) is arranged in the middle of the control panel (8), a control button (82) is arranged at the lower end of the display screen (81), a camera (83) is arranged at the upper right corner of the control panel (8), and a microphone (84) and a loudspeaker (85) are sequentially arranged at the lower end of the camera (83); a central processing unit (31) and a power distribution controller (32) are arranged in the control box (3), the control box (3) is connected with the defibrillation device (4), the resuscitation device (5), the monitoring device (6), the breathing device (7), the control panel (8), the telescopic motor controller (16), the first motor (413), the second motor (513) and the rotating motor (22),

electric robotic arm (511) are including flexible base (5111), vibrations pole (5112) and rubber suction cup (5113), flexible base (5111) upper end is passed through vibrations pole (5112) are connected with rubber suction cup (5113) lower extreme, flexible base (5111) embeds there is overvoltage protection controller (5114), rubber suction cup (5113) embeds there is pressure sensing chip (5115), pressure sensing chip (5115) are connected with overvoltage protection controller (5114), through the cooperation of overvoltage protection controller (5114) and pressure sensing chip (5115), prevent that electric robotic arm's vibrations pole (5112) pressure from producing the damage to the patient greatly.

2. A cardiology monitoring first aid device according to claim 1, wherein a communicator (33) is further provided in the control box (3), the communicator (33) being located above the central processor (31), the communicator (33) being adapted to perform a video call or an audio call with a mobile device.

3. The first-aid device for monitoring cardiology department according to claim 1, wherein a temperature and humidity sensor (721) and a temperature and humidity controller (722) are disposed in the temperature and humidity control module (72), and the temperature and humidity sensor (721) is connected to the temperature and humidity controller (722).

4. The first-aid device for monitoring cardiology department according to claim 1, wherein the sterilizing chamber (74) has ultraviolet sterilizing lamps (741) on the upper and lower sidewalls and a fixing frame (742) on the bottom.