CN211047060U - Movable wearable remote guidance system based on 5G network - Google Patents

Movable wearable remote guidance system based on 5G network Download PDF

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Publication number
CN211047060U
CN211047060U CN202020258870.XU CN202020258870U CN211047060U CN 211047060 U CN211047060 U CN 211047060U CN 202020258870 U CN202020258870 U CN 202020258870U CN 211047060 U CN211047060 U CN 211047060U
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China
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frame
goggles
mobile terminal
module
camera
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CN202020258870.XU
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Chinese (zh)
Inventor
杨宁
任章霞
钱亮
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Guangan Peoples Hospital
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Guangan Peoples Hospital
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Abstract

The utility model discloses a portable wearing formula remote guidance system based on 5G network. The current consultation system can only invite one hospital specialist for consultation, and cannot guide doctors in an operating room (or an ICU) when meeting an accident (or rescue) condition. The utility model discloses a video unidirectional transmission module and audio frequency bidirectional transmission module, video unidirectional transmission module includes the camera, the image sensor module, 5G transmitting antenna and 5G video receiver, 5G video receiver is connected with mobile terminal one, audio frequency bidirectional transmission module includes the adapter, goggles bluetooth module, earphone and bluetooth of mobile phone module, the camera, the image sensor module, 5G transmitting antenna, the adapter, goggles bluetooth module and earphone all set up on the goggles, bluetooth of mobile phone module sets up in mobile terminal one, mobile terminal one and mobile terminal two are through 5G internet access. The utility model has the advantages of remote guidance, operation guidance, no limitation to the consultation doctors, etc.

Description

Movable wearable remote guidance system based on 5G network
Technical Field
The utility model relates to the technical field of medical equipment, concretely relates to portable wearing formula remote guidance system based on 5G network.
Background
In the existing medical process, doctors and patients, doctors and the like are mostly required to be contacted in a short distance, for example, the current ward round mode mainly needs that doctors arrive at a ward site to inquire and physically check patients, while the operation needs that doctors operate according to experience site, the guidance of other superior doctors can only be provided by telephone to listen to the description of the site doctors, the site image data of the patients cannot be directly obtained, if the data (medical history, physical examination, auxiliary examination and in-person inquiry) of the patients needs to be acquired in the site, accidents (heavy bleeding, anesthesia accidents, difficulty exceeding expectation, tumor unresectable and the like) occur in emergency, danger, severe cases or operations, higher-level experts (most of the situations are not out of a city or hospital) need to be requested immediately to perform consultation and guidance operations, and due to the space-time distance, the life-saving experts such as fire-saving emergencies, there is a need for a convenient and effective system support. Secondly, the high-quality medical resources sink to the basic level, which is one of the major measures for the reform of the national public hospital, if a system is provided, an interactive platform can be provided for consultation, operation and ward visit of experts and primary hospital doctors in the national medical center, convenient and timely remote consultation can be really realized, and the cost of long-distance running and time saving are saved. Therefore, there is a need for a remote guidance system that is applicable to various medical environments, fast in response, and easy to popularize.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the technical problem that will solve is: the existing activities such as medical consultation, operation guidance and the like are mostly in-person on-site modes. In recent years, some domestic hospitals and hospitals establish a 'hospital body' or 'hospital commons', and a special remote consultation system is established among the hospitals, but a consultation room needs to be fixed, doctors are connected through videos through a tube bed (supervisor) to upload case data (including medical history, physical examination, auxiliary examination and the like) of patients, and the whole process is equivalent to a video conference mode. The real-time state of the illness state that needs to be provided temporarily by a remote consultation specialist is difficult to provide (because a critical patient is in an ICU or an operating room), the guidance of operation or equipment operation cannot be realized, most importantly, a bidirectional remote consultation platform must be established in advance, and if two hospitals are not established, remote consultation and guidance cannot be realized. The clinical needs have no space limitation, response at any time, and a mobile consultation ward and operation guidance platform.
The utility model provides a solve a portable wearing formula remote guidance system based on 5G network of above-mentioned problem.
The utility model discloses a following technical scheme realizes:
the utility model provides a portable wearing formula remote guidance system based on 5G network, includes video one-way transmission module and audio frequency two-way transmission module, video one-way transmission module includes camera, image sensor module, 5G transmitting antenna and 5G video receiver, camera, image sensor module and 5G transmitting antenna all set up on the goggles, 5G video receiver is provided with 5G receiving antenna, 5G video receiver and mobile terminal-connection, audio frequency two-way transmission module includes adapter, goggles bluetooth module, earphone and mobile phone bluetooth module, adapter, goggles bluetooth module and earphone setting are in on the goggles, mobile phone bluetooth module sets up in the mobile terminal one, mobile terminal one and mobile terminal two are through 5G internet access.
The utility model discloses a set up one-way transmission module and audio frequency two-way transmission module, can establish real-time video audio frequency and exchange the platform between user A of mobile terminal one and user B of mobile terminal two, let long-range user B have the effect on the spot, on-the-spot user A becomes the vision and the extending part of sense of hearing for B, make things convenient for B to guide or command A's action, thinking and language, reach the effect of "two springs", be applicable to long-range ward round, the consultation of doctors, multiple scenes such as operation guidance.
The utility model discloses preferred a portable wearing formula remote guidance system based on 5G network, still be provided with the microphone on the goggles, set up adapter and microphone simultaneously for the effect of collecting the site sound is better, can make long-range B can accept more clear complete sound.
The utility model discloses preferred a portable wearing formula remote guidance system based on 5G network, still be provided with charge mouthful and SD draw-in groove on the goggles, the mouth that charges is used for charging the goggles, and can insert the SD card in the SD draw-in groove for the goggles has certain storage function.
The utility model discloses preferred a portable wearing formula remote guidance system based on 5G network, be provided with the earphone jack on the goggles, the earphone passes through the earphone jack with the connection can be dismantled to the goggles, and audio line on the earphone can be with long-range B's sound transmission to on-the-spot A's ear in, realize guiding or commander.
The utility model discloses preferred a portable wearing formula remote guidance system based on 5G network, the goggles includes picture frame and mirror holder, the camera embedding the centre of picture frame is realized wearing and the focus synchronization, does not need other people's help to adjust, and it is stable to make a video recording, does not have and rocks for the video that long-range B obtained is clear.
The utility model prefers a movable wearable remote guidance system based on a 5G network, the spectacle frame is provided with two spectacle frames and a groove positioned between the two spectacle frames, the groove is used for accommodating a nose bridge, the camera is positioned in the middle of the two spectacle frames, the microphone is arranged at the groove, the sound pick-up is positioned at two ends of the two spectacle frames, the 5G transmitting antenna is arranged at the upper end of one side of the spectacle frame, the microphone and the sound pick-up which are used as sound collecting devices are arranged in the middle and at two ends of the spectacle frame, so that the sound can be collected in all directions, and the microphone is arranged in the middle of the lens frame, so that the distance between the microphone and the mouth is short, the sound emitted by the A can be better collected, the sound heard by the remote B is clearer and more accurate, when the camera is worn, the camera is probably positioned at the position of the eyebrow center, so that the rapid focusing is realized, and the clear video can be obtained by the remote B.
Further, the camera is high definition pinhole camera, and the camera is small, and direct embedding protects the eyepiece frame centre, keeps the uniformity with the two-eye focus point of anthropotomy, and observer A sees what to listen, directly presents at user B's vision and sense of hearing, if what scene is wanted to see by B, gives the instruction through the video audio frequency APP in the android system and gives A just can realize at once, and A's the field of vision or sense of hearing are exactly the extension of B field of vision and sense of hearing, have the effect of visiting the scene.
The utility model discloses preferred portable wearing formula remote guidance system based on 5G network, the mirror holder includes mirror holder one and mirror holder two, set up on the mirror holder one goggles bluetooth module and the mouth that charges, set up on the mirror holder two image sensor module, SD draw-in groove and earphone jack distribute in two mirror holders and set up each structure, can balance the weight ratio after the goggles are worn on eyes.
Furthermore, the SD card slot is arranged along the vertical direction of the second lens bracket, and when the SD card is inserted, the SD card is inserted downwards from the upper edge of the second lens bracket.
The utility model discloses preferred a portable wearing formula remote guidance system based on 5G network, mobile terminal one and mobile terminal two are the smart mobile phone, 5G video receiver with mobile terminal one adopts the USB to connect.
The utility model discloses preferred a portable wearing formula remote guidance system based on 5G network, the picture frame is including horizontal frame and eye frame, the width of horizontal frame is 1-1.5cm, camera and adapter setting are in on the horizontal frame.
The utility model discloses following beneficial effect has:
1. the utility model discloses a set up video unidirectional transmission module and audio frequency bidirectional transmission module, can establish real-time video audio frequency and exchange the platform between user A of mobile terminal one and user B of mobile terminal two, let long-range user B have the effect of being personally on the scene, on-the-spot user A becomes the vision and the extension of sense of hearing for B, make things convenient for B to guide or command A's action, thinking and language, reach the effect of "two springs", be applicable to long-range ward visit, the consultation of doctors, multiple scenes such as operation guidance.
2. The utility model discloses can realize that long-range consultation and operation between the doctor of a hospital and N (unlimited) hospital guide, provide one set of quick, outdoor scene, interactive platform that exchanges, eliminate the space-time distance that the doctor guides with the operation temporarily between different cities, different hospitals in the twinkling of an eye, can in time launch on the operating table very much or when salvaging critical severe patients, the expense is low, portable. Particularly, on an operating table, a deep operation visual field (the same visual field as an operator) can be provided for a remote instructor, and the instructor can be instructed to deal with dangerous situations in time to turn the dangerous situations into the dangerous situations; in addition, when the remote consultation of the fulminant infectious diseases is guided, the infection risk of consultation experts can be avoided, the long-distance running cost of the experts is saved, and the biggest requirement of saving the lives only by winning the time is that the patients are in the same type of patients.
3. The utility model discloses a remote guidance system can effectively reduce doctor and patient's closely contact, reduces the infection risk, reduces the use change frequency of protective product.
4. The utility model discloses set up the camera in the eyebrow position, the direct embedding protects the eyepiece frame centre, keeps the uniformity with the two eyes focus point of anthropotomy, shows the video better, does not need the supplementary focusing of other personnel.
5. The utility model discloses set up camera, adapter and microphone on the picture frame, set up the structure respectively on two mirror framves for the weight ratio of whole goggles is suitable, wears firmly, does not squint.
Drawings
The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:
fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a working principle block diagram of the video unidirectional transmission module of the present invention.
Fig. 3 is a block diagram of the working principle of the transmission from a to B in the audio bidirectional transmission module of the present invention.
Fig. 4 is a block diagram of the working principle of B to a transmission in the audio bidirectional transmission module of the present invention.
Reference numbers and corresponding part names in the drawings:
the mobile phone Bluetooth mobile phone comprises a picture frame 1, a picture frame 2, a picture frame 3, a camera 4, a sound pickup 5, a microphone 6-5G transmitting antenna 7, an image sensor module 8, an SD card slot 9, an earphone jack 10, an earphone 11, an audio line 12, a goggles Bluetooth module 13, a charging port 14-5G receiving antenna 15-5G video receiver 16-USB lines 17, a mobile terminal I18, a mobile phone Bluetooth module 19 and a mobile terminal II.
Detailed Description
To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.
As shown in FIG. 1, a mobile wearable remote guidance system based on a 5G network comprises a video unidirectional transmission module and an audio bidirectional transmission module, wherein the video unidirectional transmission module comprises a camera 3, an image sensor module 7, a 5G transmitting antenna 6 and a 5G video receiver 15, the camera 3, the image sensor module 7 and the 5G transmitting antenna 6 are all arranged on goggles, the 5G video receiver 15 is provided with a 5G receiving antenna 14, the 5G video receiver 15 is connected with a mobile terminal I17, the audio bidirectional transmission module comprises a sound pickup 4, a microphone 5, a goggles Bluetooth module 12, an earphone 10 and a mobile phone Bluetooth module 18, the sound pickup 4, the goggles Bluetooth module 12 and the earphone 10 are arranged on the goggles, the mobile phone Bluetooth module 18 is arranged in the mobile terminal I17, the first mobile terminal 17 and the second mobile terminal 19 are connected through a 5G network, and the 5G network adopts a 5.8G network.
Still be provided with charge mouth 13 and SD draw-in groove 8 on the goggles, charge mouth 13 and be used for charging the goggles, and can insert the SD card in the SD draw-in groove 8 for the goggles has certain storage function.
The goggles are provided with the earphone jack 9, the earphones 10 are detachably connected with the goggles through the earphone jack 9, and the audio lines 11 on the earphones 10 can transmit the sound of the remote B to the ears of the site A to realize guidance or command.
The goggles includes picture frame 1 and mirror holder 2, 3 imbeds of camera the centre of picture frame 1, picture frame 1 is provided with two picture frame 1 and is located the recess between two picture frame 1, the recess is used for holding the bridge of the nose, camera 3 is located the centre of two picture frame 1, microphone 5 set up in the groove part, adapter 4 is located the both ends of two picture frame 1, 5G transmitting antenna 6 sets up the upper end of 1 one side of picture frame.
Camera 3 is high definition pinhole camera 3, mirror holder 2 includes 2 one of mirror holder and 2 two of mirror holder, 2 one of mirror holder sets up goggles bluetooth module 12 and the mouth 13 that charges, 2 two of mirror holder set up image sensor module 7, SD draw-in groove 8 and earphone jack 9 divide the device to set up each structure in two mirror holders 2, can balance the weight ratio after the goggles were worn on eyes.
The tails of the two spectacle frames 2 are connected through the elastic rope, so that the goggles can be well fixed when worn, the goggles are prevented from falling, and particularly, the operation table is prevented from being polluted due to falling more importantly.
The first mobile terminal 17 is a 5G smart phone of a user A, the second mobile terminal 19 is a 5G smart phone of a user B, and the 5G video receiver 15 is connected with the first mobile terminal 17 through a USB.
The spectacle frame 1 comprises a transverse frame and an eye frame, the width of the transverse frame is 1-1.5cm, and the camera 3 and the sound pickup 4 are arranged on the transverse frame.
The working process of the video unidirectional transmission module is shown in fig. 2, and is divided into three stages from a user a to a user B:
first stage (by user a to 5G frequency receiver): a WIFI video image transmission technology is adopted and is divided into a transmitting end and a receiving end. The transmitting end is positioned on goggles worn on A, and the receiving end is a 5G video receiver 15 connected with a 5G smart phone. The specific transmission path is as follows: high-definition camera 3 → image sensor module 7 → 5G transmitting antenna 6 → 5G receiving antenna 14 → 5G video receiver 15.
Second stage (5G smartphone by 5G video receiver 15 to user a): 5G video receiver 15 → USB line 16 → user A's 5G smartphone, where the smartphone is aided by the Android system's video audio APP software.
Stage three (from user a's 5G smartphone to user B): remote video transmission is carried out based on a 5G network technology, and the specific transmission path is as follows: user a's 5G smartphone → 5G network → user B's 5G smartphone → user B.
As shown in fig. 3, the audio transmission path from user a to user B in the audio bidirectional transmission module is divided into 2 stages:
first stage (5G smartphone from user a to user a): pickup 4 and microphone 5 → goggle bluetooth module 12 transmit → 5G smartphone bluetooth module 18 receive → user a's 5G smartphone, with the help of Android system based video audio APP software.
Second stage (from user a's 5G smartphone to user B): remote audio transmission is carried out based on a 5G network technology, and the specific transmission path is as follows: user a's 5G smartphone → 5G network → user B's 5G smartphone → user B.
As shown in fig. 4, the audio transmission path from user B to user a in the audio bidirectional transmission module is divided into 2 stages:
first stage (5G smartphone from user B to user a): remote audio transmission is carried out based on a 5G network technology, and the specific transmission path is as follows: user B → user B's 5G smartphone → 5G network → user a's 5G smartphone.
Second stage (from user a's 5G smartphone to user a): user a's 5G smartphone → cell phone bluetooth module 18 transmit → goggle bluetooth module 12 receive → audio line 11 → headset 10.
The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the design concept of the present invention should be included in the scope of the present invention.

Claims (9)

1. A movable wearable remote guidance system based on a 5G network is characterized by comprising a video unidirectional transmission module and an audio bidirectional transmission module,
the video unidirectional transmission module comprises a camera, an image sensor module, a 5G transmitting antenna and a 5G video receiver, the camera, the image sensor module and the 5G transmitting antenna are all arranged on goggles, the 5G video receiver is provided with a 5G receiving antenna, the 5G video receiver is connected with a first mobile terminal,
the two-way transmission module of audio frequency includes adapter, goggles bluetooth module, earphone and bluetooth mobile phone module, adapter, goggles bluetooth module and earphone setting are in on the goggles, bluetooth mobile phone module sets up in mobile terminal one, mobile terminal one and mobile terminal two are through 5G internet access.
2. The system of claim 1, wherein the goggles further comprise a microphone.
3. The system of claim 1 or 2, wherein the goggles are further provided with a charging port and an SD card slot.
4. The system of claim 1 or 2, wherein the goggles are provided with a headset jack, and the headset is detachably connected with the goggles through the headset jack.
5. A mobile wearable remote guidance system based on 5G network as claimed in claim 2, wherein the goggles comprise a frame and a frame, and the camera is embedded in the center of the frame.
6. A mobile wearable remote guidance system based on 5G network according to claim 5 is characterized in that the glasses frame is provided with two glasses frames and a groove between the two glasses frames, the groove is used for accommodating the bridge of the nose, the camera is located in the middle of the two glasses frames, the microphone is arranged at the groove, the sound pick-up is located at two ends of the two glasses frames, and the 5G transmitting antenna is arranged at the upper end of one side of the glasses frame.
7. The remote guidance system of claim 5 or 6, wherein the frame comprises a first frame and a second frame, the first frame is provided with the goggles Bluetooth module and the charging port, the second frame is provided with the image sensor module, the SD card slot and the earphone jack, the SD card slot is arranged in the vertical direction of the second frame, and the SD card is inserted downwards from the upper edge of the second frame when the SD card is inserted.
8. The system of any one of claims 1, 2, 5 and 6, wherein the first mobile terminal and the second mobile terminal are both smart phones, and the 5G video receiver is connected with the first mobile terminal through a USB.
9. A mobile wearable remote guidance system based on 5G network according to claim 5 or 6, characterized in that the frame comprises a horizontal frame and an eye frame, the width of the horizontal frame is 1-1.5cm, the camera and the sound pickup are arranged on the horizontal frame.
CN202020258870.XU 2020-03-05 2020-03-05 Movable wearable remote guidance system based on 5G network Active CN211047060U (en)

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Application Number Priority Date Filing Date Title
CN202020258870.XU CN211047060U (en) 2020-03-05 2020-03-05 Movable wearable remote guidance system based on 5G network

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020258870.XU CN211047060U (en) 2020-03-05 2020-03-05 Movable wearable remote guidance system based on 5G network

Publications (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113571182A (en) * 2021-08-03 2021-10-29 南京邮电大学盐城大数据研究院有限公司 Consultation method and system based on 5G communication

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113571182A (en) * 2021-08-03 2021-10-29 南京邮电大学盐城大数据研究院有限公司 Consultation method and system based on 5G communication

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