CN211828149U - Ophthalmologic remote consultation system and equipment thereof - Google Patents

Abstract

The utility model relates to the technical field of ophthalmological remote consultation system, in particular to an ophthalmological remote consultation system and equipment thereof, wherein the consultation system comprises a hardware acquisition end and a software transmission system hardware acquisition end which are used for acquiring real-time data and transmitting the real-time data to the software transmission system; the software transmission system comprises a cloud service platform, a head office consultation center system, a head office expert consulting room system, a branch office consulting room system and a hospital outpatient system; the consultation system equipment comprises a large-scale remote video conference terminal, a plurality of eye examination instruments and a small-scale remote video conference terminal, wherein the eye examination instruments are provided with microscopic cameras, and the microscopic cameras are connected with the PC workstation through data lines; the utility model discloses the doctor of the middle and primary level can initiate the remote diagnosis request to the chief expert, and transmit the ophthalmology image and the patient case history data in real time for the expert to make remote diagnosis; meanwhile, the system can also carry out audio and video interactive discussion on the illness state of the patient with a head office expert in real time, and can also obtain guidance suggestions given by the head office expert when the patient encounters difficult and complicated diseases.

Description

Ophthalmologic remote consultation system and equipment thereof

Technical Field

The utility model relates to an ophthalmology remote consultation system technical field, concretely relates to ophthalmology remote consultation system and equipment thereof.

Background

The remote consultation system is based on the Internet, and adopts modern communication technology, modern electronic technology and computer technical means to realize remote acquisition, transmission, processing, storage and query of various medical information, thereby completing the functions of detection, monitoring, diagnosis, information transmission, management and the like of remote objects.

The ophthalmology is called ophthalmology department, which is the subject of studying diseases related to the visual system including the eyeball and the tissues related to the eyeball. In ophthalmology, various ophthalmic diseases such as vitreous body, retinal diseases, ocular optics, glaucoma, optic neuropathy, cataract and the like are generally researched. However, in the field of ophthalmic treatment, a remote consultation system is not used at present, and for primary doctors, voice interaction with a chief expert cannot be performed in real time to discuss the illness state of a patient, so that the service capability and the medical quality of the primary doctors cannot be improved; for patients, the doctor needs to be searched in different places, which is troublesome and high in medical searching cost, and the diagnosis can be obtained in a very short time, so that the best diagnosis and treatment time is easy to delay.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a problem to the background art provides has designed an ophthalmology remote consultation system and equipment, has solved unable real-time and the total college expert and has carried out the problem that sound interaction exchanged discussion patient's state of an illness, has also solved in the time of the utmost point alright obtain the diagnosis suggestion, hinders the problem of the best diagnosis opportunity of patient easily.

The utility model discloses a realize through following technical scheme:

the remote consultation system for the ophthalmology comprises a hardware acquisition end and a software transmission system, wherein the hardware acquisition end is used for acquiring real-time data and transmitting the real-time data to the software transmission system; the software transmission system comprises a cloud service platform, a general consultation center system, a general expert consulting room system, a hospital dividing consulting room system and a hospital outpatient system, wherein the cloud service platform comprises a main server for realizing remote communication, data analysis and processing and equipment management functions, a database server connected with the main server and a recording and broadcasting server connected with the database server; the head office consultation center system comprises a large-scale remote video conference terminal, an interactive large screen, a PC workstation and a data center; the head office expert consulting room system comprises a small remote video conference terminal and a PC workstation; the hospital distribution room system and the hospital integrated clinic system respectively comprise a small-sized remote video conference terminal, a micro-camera and a PC workstation.

As a further improvement of the above scheme, a large-scale remote video conference terminal in the total consultation center system is connected with an interactive large screen, and small-scale remote video conference terminals in the individual hospital consulting room system and the hospital outpatient system are connected with a micro camera; the system comprises a general hospital consultation center system, a branch office system, a hospital outpatient system, a hospital consultation room system, a network connection media processing system, a network connection media interaction system and a small remote video conference terminal, wherein the large remote video conference terminal of the general hospital consultation center system is connected with the small remote video conference terminals in the branch office system and the hospital outpatient system through the network connection media processing system, and the small remote video conference terminal of the general hospital expert office system is connected with the small remote video conference terminals in the branch office system and the hospital outpatient system through the network.

As a further improvement of the above scheme, the total hospital consultation center system and the total hospital expert consulting room system are both connected with the cloud service platform through a wireless network media processing system.

As a further improvement of the above, the real-time data includes eye-captured image data, audio data, and video image data, and the eye-captured image data can observe the morphology of cornea, anterior chamber, conjunctiva, pupil, iris, crystalline lens, eyelid, optic disc, macular region, diagnosis of eyelid disease, conjunctival disease, corneal disease, cataract, and the presence or absence of hemorrhage, exudation, hemangioma, retinal degeneration region, retinal hole, neovascularisation, atrophic macula, and pigment disorder change on retina.

As a further improvement of the above scheme, the audio data and the video image data are audio and video interactive data performed by the primary doctor of the hospital division office system and the hospital clinic system and the expert of the general hospital in real time.

As a further improvement of the above scheme, the content stored by the database server in the cloud service platform includes patient medical record files and real-time data acquired by a hardware acquisition end; the eye shooting image data in the patient medical record files and the real-time data can be inquired aiming at mobile equipment such as an iphone client and an Andriod client; the audio data and the video image data are only limited to be inquired by doctors of the hospital system.

As a further improvement of the scheme, consultation and referral examination and approval recording software systems are installed in PC workstations in the total consultation center system, the total expert consulting room system, the branch consulting room system and the hospital outpatient system and are used for completing consultation and referral content recording and process examination and approval.

The equipment of the remote consultation system for the ophthalmology comprises a large-scale remote video conference terminal, a plurality of eye examination instruments and a small-scale remote video conference terminal, wherein the eye examination instruments are provided with the microscopic cameras, and the microscopic cameras are connected with a PC workstation through data lines.

As a further improvement of the above scheme, the large-scale remote video conference terminal and the small-scale remote video conference terminal both include a host, a camera, a microphone and a sound, and video image data in the large-scale remote video conference terminal is directly projected onto the interactive large screen and supports multi-screen output; video image data in the small-sized remote video conference terminal are directly projected onto a display screen.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a establish a medical union body that covers provincial level, city level, county level hospital, establish unified ophthalmology medical treatment remote consultation platform, the basic unit doctor of each subordinate's branch institute and the conjuncted outpatient service of doctor all can be to the college expert consulting room, the college consultation center launches the remote diagnosis request, and real-time transmission ophthalmology image and patient case history data, supply expert remote diagnosis, give the consultation suggestion after the expert diagnoses, basic unit doctor receives the consultation suggestion and deals with, can effectively improve basic unit doctor service ability and medical quality.

2. The utility model discloses a long-range consultation system, primary doctor can also carry out audio and video interactive communication with the head office expert in real time and discuss patient's state of an illness, also can obtain the guidance suggestion that the head office expert gives in case of difficult and complicated disease, accomplish the referral upwards; meanwhile, the patient can check the state of illness of the patient himself, and the diagnosis result of the doctor can be more comprehensively understood.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a block diagram of a software transmission system according to the present invention;

fig. 2 is a schematic structural diagram of a medium-large remote video conference terminal according to the present invention;

fig. 3 is a schematic structural diagram of a small and medium-sized remote video conference terminal of the present invention;

fig. 4 is a schematic view of the connection between the eye examination apparatus and the PC workstation.

The system comprises a large-scale remote video conference terminal, a 2-eye examination instrument, a 3-small-scale remote video conference terminal, a 4-microscopic camera, a 5-data line, a 6-PC workstation, a 7-host, an 8-video camera, a 9-microphone, a 10-sound, an 11-interactive large screen and a 12-display screen.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

The remote consultation system for the ophthalmology comprises a hardware acquisition end and a software transmission system, wherein the hardware acquisition end is used for acquiring real-time data and transmitting the real-time data to the software transmission system; as shown in fig. 1, the software transmission system includes a cloud service platform, a total consultation center system, a total expert consulting room system, a branch consulting room system and a hospital outpatient system, wherein the cloud service platform includes a main server for implementing remote communication, data analysis and processing and equipment management functions, a database server connected with the main server and a recording and broadcasting server connected with the database server; the head office consultation center system comprises a large-scale remote video conference terminal, an interactive large screen, a PC workstation and a data center; the head office expert consulting room system comprises a small-sized remote video conference terminal and a PC workstation; the hospital-dividing consulting room system and the hospital-integrated outpatient system respectively comprise a small-sized remote video conference terminal, a micro-camera and a PC workstation.

A large-scale remote video conference terminal in a general consultation center system is connected with an interactive large screen, and a small-scale remote video conference terminal in a separate hospital consulting room system and a medical conjuncted outpatient system are connected with a micro camera; the large-scale remote video conference terminal of the head office consultation center system is respectively connected with the small-scale remote video conference terminals in the hospital-dividing consulting room system and the integrated hospital outpatient system through the network connection media processing system, and the small-scale remote video conference terminal of the head office expert consulting room system is respectively connected with the small-scale remote video conference terminals in the hospital-dividing consulting room system and the integrated hospital outpatient system through the network connection media interactive system; the head office consultation center system and the head office expert consulting room system are connected with the cloud service platform through the wireless network media processing system; therefore, a medical union covering provincial, municipal and county hospitals is established, a unified ophthalmologic medical remote consultation platform is established, primary doctors of all subordinate hospitals and medical conjunctive outpatients can initiate remote diagnosis requests to a head office specialist consulting room and a head office consulting center, ophthalmologic images and medical record data of patients are transmitted in real time for remote diagnosis of specialists, consultation opinions are given after the specialists diagnose, and the primary doctors receive and deal with the consultation opinions, so that the service capability and the medical quality of the primary doctors can be effectively improved.

Wherein the real-time data comprises eye-captured image data, audio data and video image data, and the eye-captured image data can observe the morphology of cornea, anterior chamber, conjunctiva, pupil, iris, crystalline lens, eyelid, optic disc, macular region, disease diagnosis of eyelid disease, conjunctival disease, corneal disease, cataract, and the presence or absence of hemorrhage, exudation, hemangioma, retinal degenerative region, retinal hole, neovascularisation, atrophic plaques, and pigmentary disorder change on retina; the audio data and the video image data are audio and video interactive data which are carried out by primary doctors of a hospital division consulting room system and a hospital outpatient system and experts of a head office in real time, so that the primary doctors can also carry out audio and video interactive communication with the experts of the head office in real time to discuss the illness state of a patient, and can also obtain guidance suggestions given by the experts of the head office in case of difficult and complicated diseases to complete upward referral.

Consultation and referral examination and approval recording software systems are installed in PC workstations in a head office consultation center system, a head office expert consulting room system, a division consulting room system and a hospital outpatient system and are used for completing consultation and referral content recording and process examination and approval; after receiving a consultation list initiated by a primary doctor, an expert can inquire according to different states of an application form and patient names, different function entries are displayed on the application forms in different states, and a corresponding function page can be skipped by clicking; when a patient needs to be referred, a primary doctor can fill in patient information, referral reasons and clinical information, upload medical records and related accessories, examine a referral application list by a hospital receiving the referral, inquire the referral list received by the doctor after the examination is finished according to different application form states and patient names, display different function entries on the application forms in different states, and click to jump to a corresponding function page. Meanwhile, the consultation volume and the referral volume of each hospital can be counted in the consultation and referral examination and approval recording software system, and the counting dimension comprises month, year, department and doctor.

The content stored by a database server in the cloud service platform comprises patient medical record files and real-time data acquired by a hardware acquisition end; the eye shooting image data in the patient medical record files and the real-time data can be inquired aiming at mobile equipment such as an iphone client and an Andriod client, so that the patient can check the condition of an illness and can know the diagnosis result of a doctor more comprehensively; the audio data and the video image data are only limited to be inquired by doctors in the hospital system, and the purpose is to prevent internal data of the hospital from leaking.

As shown in fig. 2-4, the equipment of the remote consultation system for ophthalmology department comprises a large-scale remote video conference terminal 1, a plurality of eye examination instruments 2 and a small-scale remote video conference terminal 3, wherein the eye examination instruments 2 are provided with a microscopic camera 4, and the microscopic camera is connected with a PC workstation 6 through a data line 5.

The large-scale remote video conference terminal 1 and the small-scale remote video conference terminal 3 both comprise a host 7, a camera 8, a microphone 9 and a sound box 10, video image data in the large-scale remote video conference terminal 1 are directly projected onto an interactive large screen 11 and multi-screen output is supported; the video image data in the small-sized remote video conference terminal 3 is projected directly onto the display screen 12.

The detailed parameters of the small-sized remote video conference terminal 3 are:

camera performance and image sensor: enterprise-level high-definition camera with distortion less than 0.38%, 90-degree ultra-wide viewing angle, 1080P high-definition camera shooting, 27-degree elevation angle, 13-degree depression angle, local and remote adjustable (electric) function and privacy cover

Horizontal resolution: data content resolution: 1920 × 1080, 1440 × 900, 1280 × 800, 1024 × 768

Visual resolution: 720P30fps, 720P15fps, 360P30fps

Focal length of the lens: multi-zone autofocus

An audio input interface: 1X 3.5mm

An audio output interface: 1X 3.5mm

A network interface: 1x 10/100/1000Base-T RJ45 Wi-Fi 802.11b/G/n/ac, 2.4G +5G (optional)

A control interface: 1 × USB2.0

Bandwidth requirements: up to 1Mbps alone.

Product characteristics of the small-sized remote video conference terminal 3:

product Properties 1

Video coding and decoding protocol: H.264HP SVC

Audio codec protocol: OPUS, G.711, G.722

Network transmission protocol: RTP, UDP, TCP, RTCP, SSH, DHCP, HTTP, HTTPS, 802.1x

Network adaptability: the network packet loss rate is 30%, and the video is smooth and does not screen up

Product Properties 2

Audio processing: echo cancellation, automatic noise reduction, automatic gain control, automatic enhancement, human voice highlighting, lip synchronization support

Network adaptability: the network packet loss rate is 50%, and the voice is clear and smooth; network packet loss is 80%, and semantics can be understood

A microphone: 8 meters effective pickup distance, omnidirectional high-fidelity audio acquisition, automatic echo cancellation, intelligent noise reduction processing, array microphone, automatic tracking speech according to sound source

Product Properties 3

Main pivot step motor: industrial grade ultra-long service life, manual rotation angle +/-170 degrees, remote control rotation angle +/-165 degrees, manual and automatic rotation capable of being switched at will

A loudspeaker: 3W of output power, dual-channel and stereo surround sound effect, automatic gain adjustment

A touch screen: 9.6 inch touch screen, upward angle +40 degree, downward angle-10 degree adjustable (electric)

A breathing lamp: blue color

Product Properties 4

The 4G SIM card is communicated with the whole network, has flow, is used infinitely, and is used for wirelessly transmitting screen hotspots and sharing a computer screen.

The detailed parameters of the large-scale remote video conference terminal 1 are as follows:

camera performance and image sensor: 1/2.7 inch, CMOS, effective pixel: 207 ten thousand

Horizontal resolution: HD: 1080p/60, 1080p/50, 1080i/60, 1080i/50, 1080p/30, 1080p/25, 720p/60, 720p/50, 720p/30, 720p/25

Visual resolution: 1080P60fps, 1080P30fps, 720P60fps, 720P30fps, 360P30fps, 180P30fps

Minimum illuminance: 0.5Lux (F1.8, AGC ON)

Zooming times are as follows: digital zooming: 16 times of

Optical zooming: 12 times of

Focal length of the lens: 12x, f3.5mm-42.3mm, F1.8-F2.8

A video input interface: HDMI x 1

A video output interface: HDMI x 1

An audio input interface: XLR (Canon). times.2, RCA.times.1

An audio output interface: RCA × 1, HDMI × 1

A control interface: RS232 x 1

Bandwidth requirements: support bandwidth: 64Kbps-20Mbps

Power supply: AC 220V

Product characteristics of the large-sized remote video conference terminal 1:

product Properties 1

Video coding and decoding protocol: h.263, H.263+, H.264BP, H.264HP SVC, H.265

Audio codec protocol: OPUS, G.711, G.722

Network transmission protocol: RTP, UDP, TCP, RTP, RTCP, SSH, DHCP, HTTP, HTTPS, 802.1x

Video processing: hardware coding and decoding, high code rate compression, low bandwidth transmission, image preprocessing, image post-processing and low illumination noise reduction processing

Data content resolution: 1920 x 1080, 1440 x 900, 1280 x 800, 1024 x 768

Network adaptability: the network packet loss rate is 30%, and the video is smooth and does not screen up

Audio processing: echo cancellation, automatic noise reduction, automatic gain control, automatic enhancement, human voice highlighting, lip synchronization support

Network adaptability: the network packet loss rate is 50%, and the voice is clear and smooth; network packet loss is 80%, and semantics can be understood

Accessing a network: 10/100/1000Base-T RJ45 (Wired)

Wi-Fi: 802.11b/G/n/ac, 2.4G +5.8G (optional)

USB interface: USB 2.0X 2

Signal-to-noise ratio: not less than 55dB

White balance: automatic, 3000K/indoor, 4000K, 5000K/outdoor, 6500K _1, 6500K _2, 6500K _3, one-touch, manual

The control mode is as follows: infrared remote controller control

A conference mode: chairman mode, discussion mode (voice excitation)

And (3) screen layout: 1,2,3,4,9,5+1,7+1,9

And (3) polling meeting places: support 2x 2, 3 x 3 polling

And (3) supporting: group calling, enterprise address book, conference recording, electronic whiteboard and double-flow conference.

Example 1

The specific application process of the ophthalmologic remote consultation system comprises the following steps:

firstly, a primary doctor detects the eyes of a patient by using an eye examination instrument 2, a microscopic camera 4 can shoot and record the eye image of the patient and then transmits the eye image to a PC workstation 6 through a data line 5, and the PC workstation 6 compresses the eye image file of the patient and stores the eye image file in a cloud service platform;

secondly, a primary doctor can log in a cloud service platform through a doctor authority management module, call out an eye image file of a patient and perform primary diagnosis on the image;

step three, when a primary doctor cannot accurately judge the state of an illness of a patient, a remote diagnosis request can be initiated to a head office expert consulting room, and the small-sized remote video conference terminal 3 is started, wherein the small-sized remote video conference terminal 3 comprises a host 7, a camera 8, a microphone 9, a sound box 10 and a display screen 12, and when the head office expert agrees to receive the diagnosis request, the small-sized remote video conference terminal 3 of the head office expert consulting room system can automatically access audio and video signals, so that audio and video interaction can be carried out with the head office expert in real time to discuss the state of the illness of the patient, and the difficult illness can also obtain guidance suggestions given by the head office expert;

step four, after a head office expert logs in a cloud service platform through a doctor authority management module, the head office expert can accept basic doctors to transmit ophthalmic images and patient medical record data in real time, and after diagnosis by the head office expert, consultation opinions are given;

and fifthly, uploading the consultation opinions given after the expert diagnoses to a cloud service platform, and logging in a cloud service platform system at the basic level to obtain a final diagnosis report.

Example 2

The specific application process of the ophthalmologic remote consultation system comprises the following steps:

firstly, a primary doctor detects the eyes of a patient by using an eye examination instrument 2, a microscopic camera 4 can shoot and record the eye image of the patient and then transmits the eye image to a PC workstation 6 through a data line 5, and the PC workstation 6 compresses the eye image file of the patient and stores the eye image file in a cloud service platform;

secondly, a primary doctor can log in a cloud service platform through a doctor authority management module, call out an eye image file of a patient and perform primary diagnosis on the image;

and step three, when the basic doctor can not accurately judge the illness state of the patient, a remote diagnosis request can be initiated to the head office consultation center, the small-sized remote video conference terminal 3 is started, the small-sized remote video conference terminal 3 comprises a host 7, a camera 8, a microphone 9, a sound box 10 and a display screen 12, when the head office consultation center agrees to receive the diagnosis request, the large-sized remote video conference terminal 1 of the head office consultation center system can automatically access audio and video signals, so that an audio and video interactive conference can be carried out with a plurality of experts in the head office in real time, and the difficult disease can also obtain guidance suggestions given by the head office experts.

The utility model discloses to the government: can help relieve the contradiction between the ever-increasing medical requirements of the primary people and the huge contrast of urban and rural medical resource structures; the remote medical construction is an important component of medical informatization construction, and plays a promoting role in promoting the informatization construction of the whole industry; for the patient: the trouble brought by searching for a doctor in a different place is avoided, the diagnosis opinions can be obtained in a very short time, the best diagnosis and treatment time can be mastered, a large amount of expenses for seeking a doctor out of the office can be saved, and the experts in remote medical treatment are all domestic famous professors, main officers and assistant main officers; for the primary physician: the accuracy of disease diagnosis is improved, the practical problems in the diagnosis and treatment process are solved, and the rapid growth of individuals is facilitated; for hospitals: can improve hospital's medical treatment level, promote economic benefits, also can improve work efficiency, the intelligent hospital of construction, the information digitization is preserved, the reuse of being convenient for has strengthened the contact of doctor and expert in the hospital simultaneously, is favorable to the institute internal medicine to study the development of project.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. Ophthalmic remote consultation system, including hardware acquisition end and software transmission system, its characterized in that: the hardware acquisition end is used for acquiring real-time data and transmitting the real-time data to the software transmission system; the software transmission system comprises a cloud service platform, a general consultation center system, a general expert consulting room system, a hospital dividing consulting room system and a hospital outpatient system, wherein the cloud service platform comprises a main server for realizing remote communication, data analysis and processing and equipment management functions, a database server connected with the main server and a recording and broadcasting server connected with the database server; the head office consultation center system comprises a large-scale remote video conference terminal, an interactive large screen, a PC workstation and a data center; the head office expert consulting room system comprises a small remote video conference terminal and a PC workstation; the hospital distribution room system and the hospital integrated clinic system respectively comprise a small-sized remote video conference terminal, a micro-camera and a PC workstation.

2. The ophthalmic remote consultation system according to claim 1, characterized in that: the large-scale remote video conference terminal in the total consultation center system is connected with the interactive large screen, and the small-scale remote video conference terminal in the hospital dividing consulting room system and the small-scale remote video conference terminal in the hospital integrated outpatient system are both connected with the micro camera; the system comprises a general hospital consultation center system, a branch office system, a hospital outpatient system, a hospital consultation room system, a network connection media processing system, a network connection media interaction system and a small remote video conference terminal, wherein the large remote video conference terminal of the general hospital consultation center system is connected with the small remote video conference terminals in the branch office system and the hospital outpatient system through the network connection media processing system, and the small remote video conference terminal of the general hospital expert office system is connected with the small remote video conference terminals in the branch office system and the hospital outpatient system through the network.

3. The ophthalmic remote consultation system according to claim 1, characterized in that: and the head office consultation center system and the head office expert consulting room system are connected with the cloud service platform through a wireless network media processing system.

4. The ophthalmic remote consultation system according to claim 1, characterized in that: the real-time data includes eye-captured image data, audio data, and video image data, which enable observation of the morphology of the cornea, anterior chamber, conjunctiva, pupil, iris, lens, eyelid, optic disc, macular region, disease diagnosis of eyelid disease, conjunctival disease, corneal disease, cataract, and the presence or absence of hemorrhage, exudation, hemangioma, retinal degenerative region, retinal tear, neovascularisation, atrophic plaques, pigmentary disorder changes on the retina.

5. The ophthalmic remote consultation system according to claim 4, characterized in that: the audio data and the video image data are audio and video interactive data which are carried out by basic doctors of a hospital division and clinic system and a hospital clinic system and experts of a head office in real time.

6. The ophthalmic remote consultation system according to claim 5, wherein: the content stored by the database server in the cloud service platform comprises patient medical record files and real-time data acquired by a hardware acquisition end; the eye shooting image data in the patient medical record files and the real-time data can be inquired aiming at the mobile equipment; the audio data and the video image data are only limited to be inquired by doctors of the hospital system.

7. The ophthalmic remote consultation system according to claim 1, characterized in that: and consultation and referral examination and approval recording software systems are installed in the PC workstations in the head office consultation center system, the head office expert consulting room system, the branch office consulting room system and the integrated medical clinic system and are used for finishing consultation and referral content recording and process examination and approval.

8. The equipment applying the ophthalmologic remote consultation system according to any one of 1 to 7 is characterized in that: the eye examination equipment comprises a large-scale remote video conference terminal, a plurality of eye examination instruments and a small-scale remote video conference terminal, wherein the eye examination instruments are provided with the microscopic camera, and the microscopic camera is connected with a PC workstation through a data line.

9. The equipment applying the ophthalmologic remote consultation system according to any one of 1 to 7 is characterized in that: the large-scale remote video conference terminal and the small-scale remote video conference terminal both comprise a host, a camera, a microphone and a sound box, and video image data in the large-scale remote video conference terminal are directly projected onto the interactive large screen and support multi-screen output; video image data in the small-sized remote video conference terminal are directly projected onto a display screen.

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