CN112309561A - Standard remote diagnostic system - Google Patents

Abstract

The invention discloses a standard remote diagnosis system which comprises a flexible lighting system, an auscultation waistcoat, a percussion hammer, a small ultrasonic probe and a cloud computing system, wherein the flexible lighting system comprises fluorescent lamps, shadowless covers and a soft light box, the fluorescent lamps are distributed on the top, the left side, the right side and the front side of the face of a diagnosed person, the fluorescent lamps on the top are provided with the shadowless covers, the fluorescent lamps on the left side, the right side and the front side of the face are provided with the soft light boxes, the auscultation waistcoat is made of elastic fabrics, and stethoscope probes are respectively arranged at the positions of a heart mitral valve, a tricuspid valve, an aortic valve, the right lung and the abdomen of the heart. By adopting the standard remote diagnosis system designed by the invention, the patient and the superior hospital can be remotely diagnosed face to face in real time, the timeliness, the standard and the accuracy of the diagnosis result can be greatly ensured, the data retention, the comparison and the standardized reading are facilitated, and the support is provided for the big data of the hospital.

Description

Standard remote diagnostic system

Technical Field

The invention relates to the technical field of medical instruments, in particular to a standard remote diagnosis system.

Background

Along with the development of digital and information construction of hospitals in China, more and more small hospitals are born, more and more hospitals have the services of electrocardiographic detection, but are limited by the diagnosis level of doctors, certain diseases are difficult to diagnose for doctors in the small hospitals, expert doctors in large hospitals need to be consulted, and the traditional way of consulting the expert doctors is limited by the geographical position, has long distance and is difficult to meet the real-time requirement; and the medical big data requires standard, electronization and good storage of data acquired by diagnosis, and in many diagnoses of modern hospitals, the data generated by basic inspection, touch, tapping and listening is often not standard, difficult to store and compare and is difficult to adapt to the development of AI and big data.

In the prior art, a first-level health hospital uploads a check to a regional electrocardio network diagnosis platform, a higher-level hospital (a second-level hospital registered in the platform) in the platform assists in consultation, if doctors in the second-level hospital cannot make diagnosis at the moment, the higher-level hospital (a third-level hospital) needs to request consultation, but the third-level hospital often has a set of more mature and stable consultation system, adopts different data formats and is in a completely different network environment with the regional diagnosis platform, for two completely independent diagnosis systems, the third-level hospital cannot receive regional consultation requests, only can rely on a social tool to send electrocardiograms to doctors in the third-level hospital, and the doctors in the third-level hospital make a judgment and feed back the judgment to the doctors in the second-level hospital, and the doctors in the second-level hospital issue a final report, but the hospitals need to be switched between the two platforms continuously, not only greatly increases the workload of doctors, but also influences the timeliness and the accuracy of the response of the doctors and causes unnecessary doctor-patient contradiction.

Disclosure of Invention

The invention aims to provide a standard remote diagnosis system, which has the advantages of high efficiency, standardization and electronization, and solves the problems that the existing remote diagnosis system hospital needs to be continuously switched between two platforms, so that the workload of doctors is greatly increased, the timeliness and the accuracy of doctor response are influenced, and unnecessary doctor-patient contradictions are caused. And the data generated by watching, touching, tapping and listening is standard, easy to store and better to compare, and can well adapt to the development requirements of AI and big data.

In order to achieve the purpose, the invention provides the following technical scheme: the standard remote diagnosis system comprises a flexible lighting system, an auscultation waistcoat, a percussion hammer, a small ultrasonic probe and a cloud computing system, wherein the flexible lighting system comprises fluorescent lamps, shadowless covers and a soft light box, the fluorescent lamps are distributed on the top, the left side, the right side and the front side of the face of a diagnosed person, the fluorescent lamps on the top are provided with the shadowless covers, and the fluorescent lamps on the left side, the right side and the front side of the face are provided with the soft light box;

the auscultation waistcoat is made of elastic fabric, stethoscope probes are respectively arranged in a mitral valve region, a tricuspid valve region, an aortic valve region, a lung respiratory region and an abdominal borborygmus region and are divided into a large model, a middle model and a small model, and sound is converted by audio electric signals and then transmitted to a computer microphone; the stethoscope probes in the lung breathing area and the abdomen borborygmus area are distributed on the shoulder central lines at two sides as datum points, and are arranged on or close to the line from the center of the nipple to the center of the lower edge of the costal arch;

the small ultrasonic probe is free and movable, and a patient moves according to instructions and comprises an ultrasonic sounding device and an ultrasonic echo device, wherein the ultrasonic echo device is converted into an electric signal and then is transmitted to a cloud computing end to synthesize a visible image;

the cloud computing system comprises a computer host, a display screen, a camera, a sound box, a radio and an audio electric signal transmission device, wherein the display screen can be used for displaying collected information, zooming collected images, carrying out deep observation and leaving typical image pictures, the camera with an adjustable camera shooting angle can move along with the movement of a mouse by changing the angle of the mouse on the screen up, down, left and right, the sound box and the radio can realize real-time communication between a patient and a doctor, the audio electric signal transmission device can collect sound wave vibration of all auscultation probes and small ultrasonic probes, then convert the sound wave vibration into electric signals and temporarily store the electric signals in a cloud end, a computer end can select to listen to the stored signals or the current signals and select a storage part, and the computer host can select graphic information, typical inspection content pictures, auscultation sound information and ultrasonic information, and performing cloud computing, synthesizing an image, producing a time contrast variation graph, or performing deep learning by using AI (artificial intelligence), and giving preliminary or suggested diagnosis contents.

Preferably, the color temperature of the fluorescent lamp is 5500K-6500K, and the color temperature difference of four lamps does not exceed 500K of the mean value.

Preferably, the auscultation waistcoat has two aortic valves and the abdominal auscultation probe has three aortic valves.

Preferably, the auscultation vest needs to be changed before being worn by the patient, and the stethoscope probe needs to be sterilized before being used.

Preferably, the percussion hammer is according to the percussion of doctor instruction can, utilizes lung, abdomen auscultation probe to auscultate, sets up a free auscultation probe in addition, can remove at will.

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

by adopting the standard remote diagnosis system designed by the invention, the patient and the superior hospital can be remotely diagnosed face to face in real time, the timeliness and the accuracy of the diagnosis result can be greatly ensured, the workload of the superior hospital can be reduced, the efficiency of the diagnosis work is improved, the occurrence of the contradiction between doctors and patients is reduced, and great convenience is brought to the medical work. And the data generated by watching, touching, tapping and listening is standard, easy to store and better to compare, and can well adapt to the development requirements of AI and big data.

Drawings

Fig. 1 is a schematic view of the auscultation waistcoat of the invention.

Detailed Description

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

The components of the invention are all standard components or components known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

Referring to fig. 1, a standard remote diagnosis system comprises a flexible lighting system, an auscultation waistcoat, percussion hammers, a small ultrasonic probe and a cloud computing system, wherein the flexible lighting system comprises fluorescent lamps, shadowless covers and a soft light box, the fluorescent lamps are distributed on the top, the left side, the right side and the front side of the face of a diagnosed person, the fluorescent lamps on the top are provided with the shadowless covers, the fluorescent lamps on the left side, the right side and the front side of the face are provided with the soft light box, the color temperature of the fluorescent lamps is 5500-6500K, the color temperature difference of four lamps is not more than 500K, the percussion hammers are only required to be knocked according to the indication of a doctor, the auscultation probes of the lung and the abdomen are utilized, and a free auscultation probe;

the auscultation waistcoat is made of elastic fabric, stethoscope probes are respectively arranged in a mitral valve region, a tricuspid valve region, an aortic valve region, a lung respiratory region and an abdominal borborygmus region and are divided into a large model, a middle model and a small model, and sound is converted by audio electric signals and then transmitted to a computer microphone; the stethoscope probes in the lung breathing area and the abdomen borborygmus area are distributed on the shoulder central lines at two sides as datum points, and are arranged on or close to the line from the center of the nipple to the center of the lower edge of the costal arch; the auscultation waistcoat is provided with two aortic valves and three abdominal auscultation probes, a patient needs to change clothes before wearing the auscultation waistcoat, and the auscultation probe needs to be disinfected before use;

the small ultrasonic probe is free and movable, and a patient moves according to instructions and comprises an ultrasonic sounding device and an ultrasonic echo device, wherein the ultrasonic echo device is converted into an electric signal and then is transmitted to a cloud computing end to synthesize a visible image;

the cloud computing system comprises a computer host, a display screen, a camera, a sound box, a radio and an audio electric signal transmission device, wherein the display screen can be used for displaying collected information, zooming collected images, carrying out deep observation and leaving typical image pictures, the camera with an adjustable camera shooting angle can move along with the movement of a mouse by changing the angle of the mouse on the screen up, down, left and right, the sound box and the radio can realize real-time communication between a patient and a doctor, the audio electric signal transmission device can collect sound wave vibration of all auscultation probes and small ultrasonic probes, then convert the sound wave vibration into electric signals and temporarily store the electric signals in a cloud end, a computer end can select to listen to the stored signals or the current signals and select a storage part, and the computer host can select graphic information, typical inspection content pictures, auscultation sound information and ultrasonic information, the standard remote diagnosis system designed by the invention can carry out face-to-face real-time remote diagnosis on a patient and a superior hospital, can greatly ensure the timeliness and the accuracy of a diagnosis result, can reduce the workload of the superior hospital, improve the efficiency of diagnosis work, reduce the occurrence of medical and patient contradiction and bring great convenience to medical work. And the data generated by watching, touching, tapping and listening is standard, easy to store and better compared, so that the development requirements of AI and big data can be well adapted, and a foundation is laid for the development of medical big data.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The standard remote diagnosis system comprises a flexible lighting system, an auscultation waistcoat, a percussion hammer, a small ultrasonic probe and a cloud computing system, and is characterized in that: the flexible lighting system comprises fluorescent lamps, a shadowless cover and a soft light box, the fluorescent lamps are distributed on the top, the left side, the right side and the front side of the face of a diagnosed person, the fluorescent lamps on the top are provided with the shadowless cover, and the fluorescent lamps on the left side, the right side and the front side of the face are provided with the soft light box;

the auscultation waistcoat is made of elastic fabric, stethoscope probes are respectively arranged in a mitral valve region, a tricuspid valve region, an aortic valve region, a lung respiratory region and an abdominal borborygmus region and are divided into a large model, a middle model and a small model, and sound is converted by audio electric signals and then transmitted to a computer microphone; the stethoscope probes in the lung breathing area and the abdomen borborygmus area are distributed on the shoulder central lines at two sides as datum points, and are arranged on or close to the line from the center of the nipple to the center of the lower edge of the costal arch;

the small ultrasonic probe is free and movable, and a patient moves according to instructions and comprises an ultrasonic sounding device and an ultrasonic echo device, wherein the ultrasonic echo device is converted into an electric signal and then is transmitted to a cloud computing end to synthesize a visible image;

the cloud computing system comprises a computer host, a display screen, a camera, a sound box, a radio and an audio electric signal transmission device, wherein the display screen can be used for displaying collected information, zooming collected images, carrying out deep observation and leaving typical image pictures, the camera with an adjustable camera shooting angle can move along with the movement of a mouse by changing the angle of the mouse on the screen up, down, left and right, the sound box and the radio can realize real-time communication between a patient and a doctor, the audio electric signal transmission device can collect sound wave vibration of all auscultation probes and small ultrasonic probes, then convert the sound wave vibration into electric signals and temporarily store the electric signals in a cloud end, a computer end can select to listen to the stored signals or the current signals and select a storage part, and the computer host can select graphic information, typical inspection content pictures, auscultation sound information and ultrasonic information, and performing cloud computing, synthesizing an image, producing a time contrast variation graph, or performing deep learning by using AI (artificial intelligence), and giving preliminary or suggested diagnosis contents.

2. The standard remote diagnostic system of claim 1, wherein: the color temperature of the fluorescent lamp is 5500K-6500K, and the color temperature difference of the four lamps is not more than 500K.

3. The standard remote diagnostic system of claim 1, wherein: the auscultation waistcoat has two aortic valves and three abdominal auscultation probes.

4. The standard remote diagnostic system of claim 1, wherein: the auscultation vest needs the patient to change clothes before wearing, and the stethoscope probe needs to be disinfected before using.

5. The standard remote diagnostic system of claim 1, wherein: the percussion hammer is according to the percussion of doctor instruction can, utilizes lung, abdomen auscultation probe auscultation, sets up a free auscultation probe in addition, can remove at will.

Images