CN216257137U - Intelligent electrocardiogram diagnosis system - Google Patents

Abstract

An intelligent electrocardio diagnosis system comprises a detection bed, an electrocardio diagnosis device, an electric control cabinet and a system start button; the upper end surface of the electric control cabinet is provided with a manipulator, an upright post and a disinfection device, and the upright post is provided with a three-dimensional vision system; one end of the manipulator is connected to the upper end face of the electric control cabinet, and the other end of the manipulator is connected with the chest electrode device; a limb conductive electrode mechanism is arranged on the detection bed; the chest electrode device and the limb electrode mechanism are respectively electrically connected with the electrocardio diagnosis device; the system starting button, the electrocardio diagnosis device, the mechanical arm, the three-dimensional visual system and the disinfection device are respectively and electrically connected with the electric control cabinet. The advantages are that: the technology of a three-dimensional visual system, a mechanical arm, machine learning and the like is utilized to realize the automation, the accuracy and the intelligence of the electrocardio diagnosis, the labor intensity of medical personnel is reduced, and the electrocardio diagnosis efficiency is greatly improved; solves the problem of cross infection between medical care personnel and the detected person and the problem of high work intensity of the disinfection of the electrocardio detection equipment and instruments.

Description

Intelligent electrocardiogram diagnosis system

Technical Field

The utility model belongs to the technical field of medical equipment, and particularly relates to an intelligent electrocardio diagnosis system.

Background

In the conventional electrocardio diagnosis process, medical personnel manually wear equipment, instruments and the like used for electrocardio diagnosis for a detected person; the medical care personnel carry out repeated labor every day, and the labor intensity is high; the medical staff is in close contact with the detected person in the process of matching equipment, instruments and the like for the detected person, so that the risk of cross infection between the medical staff and the detected person is greatly improved; the disinfection problem of used detection equipment, instruments and the like after the current electrocardio diagnosis is the biggest problem faced by the electrocardio diagnosis department, the disinfection work takes more working time of medical personnel, the working strength is higher, and the working efficiency of the medical personnel is reduced.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: overcomes the defects of the prior art and provides an intelligent electrocardio diagnosis system for clinical medical treatment.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an intelligent electrocardio diagnosis system is characterized in that: comprises a detection bed, an electrocardiogram diagnosis device, an electric control cabinet and a system starting button; a manipulator, an upright post and a disinfection device are arranged on the upper end surface of the electric control cabinet, and a three-dimensional visual system is arranged on the upright post; one end of the manipulator is connected to the upper end face of the electric control cabinet, and the other end of the manipulator is connected with a chest electrode device;

a limb conductive electrode mechanism is arranged on the bed surface of the detection bed and comprises a limb conductive electrode and a sensor, and the sensor is arranged on the limb conductive electrode;

the chest electrode device comprises a distance sensor and an electrode sensor, wherein the distance sensor and the electrode sensor are arranged at the tail end of the manipulator, and the distance sensor is arranged among a plurality of the electrode sensors;

the chest electrode device and the limb electrode mechanism are respectively and electrically connected with the electrocardio diagnosis device; the system starting button, the electrocardio diagnosis device, the manipulator, the three-dimensional visual system and the disinfection device are respectively and electrically connected with the electric control cabinet.

Preferably, the chest electrode device further comprises a prepressing floating mechanism and a spring device, the prepressing floating mechanism is arranged at the tail end of the manipulator, the spring device and the distance sensor are arranged below the prepressing floating mechanism, the electrode sensor is arranged below the spring device, and the distance sensor is arranged among the spring devices.

Preferably, the limb conductive electrode mechanism further comprises a disinfectant spraying port, and the disinfectant spraying port is arranged on the limb conductive electrode.

Preferably, the limb conducting electrode mechanism further comprises a slide rail, the slide rail is connected to the bed surface of the detection bed, and the limb conducting electrode is arranged on the slide rail.

Preferably, the system starting button is installed on the upper end face of the electric control cabinet.

Preferably, the electrocardiogram diagnosis device is connected with the upper end face of the electric control cabinet.

Preferably, the three-dimensional vision system includes a camera lens, a camera light source, and an image processor.

Preferably, the electric control cabinet comprises a mechanical electric control system and a low-voltage electric appliance device.

Preferably, two side faces of the electric control cabinet are provided with a lead wire socket.

Preferably, wheels are mounted at the bottoms of the detection bed and the electric control cabinet.

Preferably, a reserved function support is arranged at the upper end of the upright post.

Compared with the prior art, the utility model has the beneficial effects that: the utility model utilizes the technologies of a three-dimensional visual system, a mechanical arm, machine learning and the like to realize automation, precision and intellectualization of the electrocardio diagnosis process, greatly lightens the labor intensity of medical personnel and greatly improves the effect and efficiency of the electrocardio diagnosis; moreover, the problems of cross infection between medical care personnel and a detected person and high disinfection working strength of electrocardio detection equipment, instruments and the like are solved to a great extent; the efficiency of electrocardio diagnosis is improved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

fig. 4 is an enlarged view of the disinfection device of fig. 1.

Labeled as:

1. a detection bed; 2. a column; 3. a manipulator; 4. a three-dimensional vision system; 5. a sterilizing device; 6. an electrocardiographic diagnostic device;

7. a limb conductive electrode mechanism; 71. a limb conductive electrode; 72. a sensor; 73. a slide rail; 74. a disinfectant spraying port;

8. a system start button; 9. a chest electrode assembly; 91. a distance sensor; 92. a prepressing floating mechanism;

93. an electrode sensor; 94. a spring device; 10. an electrical control cabinet; 11. and reserving a functional bracket.

Detailed Description

The technical scheme of the utility model is further explained by combining the attached drawings of the specification.

Example one

As shown in fig. 1, 2, 3 and 4, an intelligent electrocardiographic diagnosis system comprises a detection bed 1, an electrocardiographic diagnosis device 6, an electrical control cabinet 10 and a system start button 8; the upper end surface of the electrical control cabinet 10 is provided with a manipulator 3, an upright post 2 and a disinfection device 5, and the upright post 2 is provided with a three-dimensional vision system 4;

four limb conducting electrode mechanisms 7 are respectively arranged on the upper part and the lower part of the bed surface of the detection bed 1, each limb conducting electrode mechanism 7 comprises a limb conducting electrode 71, a sensor 72, a slide rail 73 and a disinfectant spraying opening 74, the slide rail 73 is connected to the bed surface of the detection bed 1, the limb conducting electrode 71 is arranged on the slide rail 73, the sensor 72 is arranged on the limb conducting electrode 71, and the disinfectant spraying opening 74 is arranged on the limb conducting electrode 71.

The three-dimensional vision system 4 comprises a camera lens, a camera light source and an image processor; the three-dimensional vision system 4 converts the shot target into an image signal through the camera lens, transmits the image signal to the image processor, converts the image signal into a digital signal according to the information of pixel distribution, brightness, color and the like, and the image processor performs intelligent operation on the digital signal to extract the characteristics of the target, and then provides the characteristics to the manipulator 3 for corresponding action according to the judgment result.

One end of the manipulator 3 is connected to the upper end face of the electric control cabinet 10, and the other end is connected with 9 chest electrode devices;

the chest electrode device 9 comprises a distance sensor 91, a prepressing floating mechanism 92, an electrode sensor 93 and a spring device 94; the prepressing floating mechanism 92 is fixedly arranged at the tail end of the manipulator 3, the spring device 94 and the distance sensor 91 are fixedly arranged below the prepressing floating mechanism 92, and the electrode sensor 93 is fixedly arranged below the spring device 94, so that the electrode sensor 93 is effectively and reliably contacted with the skin of a human body; the distance sensor 91 is arranged between several spring means 94.

The limb conducting electrode mechanism 7 and the chest conducting electrode device 9 are respectively and electrically connected with the electrocardio diagnosis device 6 through conducting wires, and the conducting wires for connection penetrate through the interior of the manipulator 3; the electrocardiogram diagnosis device 6 carries out electrocardiogram diagnosis on the bioelectricity signals collected by the limb conducting electrode mechanism 7 and the chest conducting electrode device 9; after the electrocardio diagnosis action is finished, the mechanical arm 3 automatically moves to the disinfection device 5; the sterilizing device 5 comprises a spraying opening 51 and a liquid discharging opening 52; after the manipulator 3 reaches the spraying opening 51, the system automatically starts the disinfection function, and the spraying opening 51 automatically sprays disinfectant to disinfect the manipulator 3; after the disinfection, the used disinfectant is discharged from the drainage port 52.

The system starting button 8, the electrocardio diagnosis device 6, the manipulator 3, the three-dimensional vision system 4 and the disinfection device 5 are respectively and electrically connected with the electric control cabinet 10;

the system starting button 8 is arranged on the upper end face of the electrical control cabinet 10; the electrocardio diagnosis device 6 is connected with the upper end surface of the electric control cabinet 10; the electric control cabinet 10 comprises a mechanical hand electric control system and a low-voltage electric appliance device; two side surfaces of the electric control cabinet 10 are provided with lead wire sockets; wheels are arranged at the bottoms of the detection bed 1 and the electrical control cabinet 10; the upper end of the upright post 2 is provided with a reserved functional bracket 11.

The working process of the utility model is as follows: as shown in figures 1, 2, 3 and 4,

1. the detected person enters the electrocardio detection room and lies on the detection bed 1 according to the voice prompt or the prompt of medical personnel; and the coat is lifted to expose the chest.

2. The detected person places the four limbs at the positions of the corresponding limb conductive electrodes 71, so that the limb conductive electrodes 71 are in contact with the wrist and ankle of the detected person.

3. Then, the medical staff presses the system start button 10 of the present invention, and the present invention can be automatically started after judging that the physical state of the subject is in place. The three-dimensional vision system 4 is used for carrying out preliminary analysis on the body type and the body position of the person to be examined and determining the position of each acquisition point on the chest of the person to be examined.

4. The examination bed 1 will automatically slide to the respective examination position.

5. The manipulator 3 automatically places the electrode sensor 93 of the chest electrode sensor 9 at the tail end of the arm at the detection position of the detected person; the electrode sensor 93 includes a contact type and a noncontact type.

6. The utility model can carry out the electrocardio detection on the detected person; the electrocardiogram and related data detected by the utility model are transmitted to the electrocardiogram diagnosis device 6, and the patient detection data are diagnosed, and the diagnosis result is automatically printed, stored and uploaded.

7. The detection procedure is completed, and a voice prompt or a medical staff prompt is given, so that the detected person leaves the detection bed 1. The utility model automatically moves the electrode sensor 93, the distance sensor 91 and the elastic device 94 of the chest electrode sensor 9 to the spraying port 51 of the disinfection device 5 for disinfection, and automatically sprays disinfectant to each limb conductive electrode 71 for disinfection.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the utility model may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (10)

1. An intelligent electrocardio diagnosis system is characterized in that: comprises a detection bed, an electrocardiogram diagnosis device, an electric control cabinet and a system starting button; a manipulator, an upright post and a disinfection device are arranged on the upper end surface of the electric control cabinet, and a three-dimensional visual system is arranged on the upright post; one end of the manipulator is connected to the upper end face of the electric control cabinet, and the other end of the manipulator is connected with a chest electrode device;

a limb conductive electrode mechanism is arranged on the bed surface of the detection bed and comprises a limb conductive electrode and a sensor, and the sensor is arranged on the limb conductive electrode;

the chest electrode device comprises a distance sensor and an electrode sensor, wherein the distance sensor and the electrode sensor are arranged at the tail end of the manipulator, and the distance sensor is arranged among a plurality of the electrode sensors;

the chest electrode device and the limb electrode mechanism are respectively and electrically connected with the electrocardio diagnosis device; the system starting button, the electrocardio diagnosis device, the manipulator, the three-dimensional visual system and the disinfection device are respectively and electrically connected with the electric control cabinet.

2. The intelligent electrocardiographic diagnostic system according to claim 1, wherein: the chest electrode device further comprises a prepressing floating mechanism and a spring device, the prepressing floating mechanism is arranged at the tail end of the manipulator, the spring device is arranged below the prepressing floating mechanism, the electrode sensor is arranged below the spring device, and the distance sensor is arranged among the spring device.

3. The intelligent electrocardiographic diagnostic system according to claim 2, wherein: the limb conductive electrode mechanism further comprises a disinfectant spraying opening, and the disinfectant spraying opening is arranged on the limb conductive electrode.

4. The intelligent electrocardiographic diagnostic system according to claim 3, wherein: the limb conductive electrode mechanism further comprises a sliding rail, the sliding rail is connected to the bed surface of the detection bed, and the limb conductive electrode is arranged on the sliding rail.

5. The intelligent electrocardiographic diagnostic system according to claim 4, wherein: the system starting button is arranged on the upper end face of the electric control cabinet.

6. The intelligent electrocardiographic diagnostic system according to claim 5, wherein: the electrocardio diagnosis device is mutually connected with the upper end face of the electric control cabinet.

7. The intelligent electrocardiographic diagnostic system according to claim 6, wherein: the three-dimensional vision system comprises a camera lens, a camera light source and an image processor.

8. The intelligent cardiac electrical diagnostic system of claim 7, wherein: the electric control cabinet comprises a mechanical hand electric control system and a low-voltage electric appliance device.

9. The intelligent electrocardiographic diagnostic system according to claim 8, wherein: two side surfaces of the electric control cabinet are provided with a lead wire socket.

10. The intelligent cardiac electrical diagnostic system of claim 9, wherein: wheels are arranged at the bottoms of the detection bed and the electrical control cabinet; and a reserved functional bracket is arranged at the upper end of the upright post.

Images