CN209962705U - AR telemedicine monitoring mechanism - Google Patents

Abstract

The utility model aims at providing a AR telemedicine monitoring mechanism. The technical scheme of the utility model is that: the mechanism is combined with a network communication platform, realizes the real-time communication function of video and audio at a first visual angle, solves the problem that a remote doctor cannot timely and intuitively know the condition of a patient, can communicate with the remote doctor in real time, helps diagnose and provide guidance, confirms the illness and takes treatment measures as soon as possible, thereby improving the time for effective diagnosis and treatment, and simultaneously can carry out joint participation of a plurality of medical experts or common teaching and training use, thereby being a more intuitive and effective AR remote medical monitoring system.

Description

AR telemedicine monitoring mechanism

Technical Field

The utility model relates to a medical field especially relates to a AR telemedicine monitoring mechanism.

Background

Modern medical rescue system is very sound, after the current patient is in illness and is in contact with 120 emergency medical rescue, emergency rescue personnel only judge and cure the illness state according to personal experience of the medical rescue personnel and simple medical equipment after arriving at the scene, and decide to send to the corresponding hospital. After the patient is delivered to a hospital and is treated by an emergency doctor, many complex diseases need to be consulted and treated by doctors in multiple departments together, and even an external specialist is needed to help and guide the treatment, although the existing mode is mature, the defects exist: first, when a critical patient or a complicated condition of an illness occurs, the emergency rescue personnel cannot accurately judge the condition of the illness due to the limitation of personal experience and medical equipment, so that correct emergency treatment cannot be performed and the emergency rescue personnel can be sent to a correct corresponding hospital for treatment, and the gold rescue time is missed. Leave the patient with incurable disease or trauma, even life-threatening; secondly, after receiving a consultation by a doctor in an emergency room, the doctor in other departments needs to consult, the doctor in other departments cannot timely arrive at the site to observe the illness state of the patient, the gold rescue time is lost, the patient is left with an incurable disease or wound, and the patient also has life danger; thirdly, when the remote expert is required to give guidance, the expert cannot observe the condition of the patient in time, and only can give certain suggestions according to the judgment and the examination results of the main doctor, so that the patient can be instructed to wait for the examination results to have all results; the above situations all reflect the importance of the timely treatment, and when the emergency condition occurs, the time is the life, and the life can be saved by providing effective treatment as soon as possible.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an utilize function of AR glasses to combine network communication platform, the video at first visual angle has been realized, the real-time communication function of audio frequency, it can't be in time to have solved the distal end doctor, understand the patient condition directly perceived, can communicate in real time with the distal end doctor, and the help diagnoses and provides the guidance, confirm the state of an illness and take therapeutical measures as early as possible, thereby the time of effectively confirming diagnosis and treatment has been improved, simultaneously can also carry out the training of jointly participating in treatment or giving lessons jointly of many medical experts and use, effectual AR telemedicine monitoring mechanism directly perceived more.

The technical scheme of the utility model is that: the utility model provides a AR telemedicine monitoring mechanism which characterized in that: comprises a plurality of information acquisition devices, an internet, a server and a plurality of signal receiving and feedback terminals, wherein any information acquisition device comprises an image acquisition terminal, a communication device and a communication signal strengthening device, the image acquisition end and the communication device are worn on the head of a field person, the communication signal strengthening device is worn on a work clothes worn by the field person, the image acquisition end and the communication device are movably connected, the image acquisition end and the communication device are connected with the communication signal strengthening device by wireless signals or Bluetooth signals, the communication device is also provided with a microphone which is positioned at the lower part of the communication device, the microphone is fixedly connected with the communication device by utilizing a shaped wire, the server is connected with the plurality of information acquisition devices and the plurality of signal receiving feedback ends by utilizing an internet.

Further, the image acquisition end is AR glasses, still be equipped with camera, two display device and wireless communication ware on the image acquisition end, the camera is located between two display device, the picture frame of camera and image acquisition end is fixed connection, two display device are located the inboard of two picture frame structures of image acquisition end respectively, two display device all are fixed connection with the image acquisition end, wireless communication ware is located one side of image acquisition end, wireless communication ware and image acquisition end are fixed connection.

Still further, the wireless communicator is a micro wireless signal transceiver with 4G and 5G communication functions, WLAN function or Bluetooth function.

Further, the communication device is a wireless signal earphone.

Further, the communication signal strengthening device is a wireless signal transceiver with a 4G communication function, a 5G communication function, a WLAN function or a Bluetooth function and high power.

Further, the internet is a 4G network, a 5G network or a WLAN.

Further, the server is a medical system server or a cloud server.

Further, the signal receiving feedback ends are all AR glasses, a mobile phone, a tablet computer, a notebook computer and a desktop terminal.

The beneficial effects of the utility model reside in that: the mechanism is an AR remote medical monitoring system which combines the functions of AR glasses with a network communication platform, realizes the real-time communication function of video and audio at a first visual angle, solves the problem that a remote doctor cannot timely and intuitively know the condition of a patient, can communicate with the remote doctor in real time, help to diagnose and provide guidance, quickly diagnose the state of an illness and take treatment measures, thereby improving the time for effective diagnosis and treatment, and simultaneously can also carry out joint participation of a plurality of medical experts in treatment or common teaching and training use, and is more intuitive and effective; the image acquisition end adopts AR glasses which are worn on the head of a field person, the communicator is also worn on the head of the field person, the communicator adopts a wireless signal earphone and earphone so as to be convenient for communication with a remote user, the wireless communicator adopts a miniature wireless signal transceiver with a 4G, 5G communication function, a WLAN function or a Bluetooth function and is used for sending and receiving image signals and audio signals, the image acquisition end is used for real-time video acquisition and visual operation, in addition, each set of information acquisition device is also provided with a communication signal reinforcing device which adopts a wireless signal transceiver with a 4G, 5G communication function, a WLAN function or a Bluetooth function and larger power and is installed on a working clothes worn on the body of the field person, when the environment where the field person is located cannot provide normal network signal service, the communication signal strengthening device can increase the strength of network signals and ensure the normal use of audio and video signals; the whole mechanism can also carry out multipoint connection, namely users at signal receiving feedback ends at different positions receive images collected by a certain field person through the image collecting end together for consultation, and the mechanism can also be used for accessing and sharing multipoint signals such as medical teaching instruction and the like, and is convenient and quick; the whole mechanism is clear in structure, convenient to use and operate, information exchange and data transmission are carried out by utilizing the Internet, diagnosis and treatment can be carried out in real time, diagnosis is confirmed in time, and the mechanism is suitable for various medical first-aid sites.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is the structure diagram of the information acquisition device of the present invention.

Fig. 3 is a schematic diagram of the image acquisition end structure of the present invention.

Wherein: 1. information acquisition device 2, image acquisition end 3, camera

4. Display device 5, wireless communicator 6, and communication device

7. Microphone 8, communication signal reinforcing device 9 and internet

10. Server 11 and signal receiving feedback end

Detailed Description

The following provides a brief description of the embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, fig. 2 and fig. 3, an AR remote medical monitoring mechanism is characterized in that: the intelligent information acquisition system comprises a plurality of information acquisition devices 1, an internet 9, a server 10 and a plurality of signal receiving feedback terminals 11, wherein any information acquisition device 1 comprises an image acquisition terminal 2, a communication device 6 and a communication signal reinforcing device 8, the image acquisition terminal 2 and the communication device 6 are worn on the head of a field person, the communication signal reinforcing device 8 is worn on a work clothes worn by the field person, the image acquisition terminal 2 is movably connected with the communication device 6, the image acquisition terminal 2 and the communication device 6 are connected with the communication signal reinforcing device 8 by using a wireless signal or a Bluetooth signal, the image acquisition terminal 2 is AR glasses, the image acquisition terminal 2 is further provided with a camera 3, two display devices 4 and a wireless communicator 5, the camera 3 is arranged between the two display devices 4, and the camera 3 is fixedly connected with a picture frame of the image acquisition terminal 2, two display device 4 are located the inboard of two picture frame structures of image acquisition end 2 respectively, two display device 4 all are fixed connection with image acquisition end 2, wireless communication ware 5 is located one side of image acquisition end 2, wireless communication ware 5 is fixed connection with image acquisition end 2, still be equipped with microphone 7 on the calling equipment 6, microphone 7 is located calling equipment 6's lower part, microphone 7 utilizes design wire and calling equipment 6 to be fixed connection, server 10 utilizes internet 9 to be connected with a plurality of information acquisition device 1 and a plurality of signal reception feedback end 11. The wireless communicator 5 is a micro wireless signal transceiver with 4G and 5G communication functions, WLAN function or Bluetooth function. The communication device 6 is a wireless signal earphone. The communication signal strengthening device 8 is a wireless signal transceiver with high power and 4G and 5G communication functions, WLAN functions or Bluetooth functions. The internet 9 is a 4G or 5G network or a WLAN. The server 10 is a medical system server or a cloud server. The signal receiving feedback terminals 11 are all AR glasses, mobile phones, tablet computers, notebook computers and desktop terminals.

The working mode is as follows: the mechanism is an AR remote medical monitoring system which combines the functions of AR glasses with a network communication platform, realizes the real-time communication function of video and audio at a first visual angle, solves the problem that a remote doctor cannot timely and intuitively know the condition of a patient, can communicate with the remote doctor in real time, help to diagnose and provide guidance, quickly diagnose the state of an illness and take treatment measures, thereby improving the time for effective diagnosis and treatment, and simultaneously can also carry out joint participation of a plurality of medical experts in treatment or common teaching and training use, and is more intuitive and effective; the system mainly comprises four parts, namely a plurality of information acquisition devices 1, an internet 9, a server 10 and a plurality of signal receiving and feedback terminals 11, wherein each information acquisition device 1 consists of an image acquisition terminal 2, a call device 6 and a communication signal strengthening device 8, the image acquisition terminal 2 adopts AR glasses which are worn on the head of a field person, the call device 6 is also worn on the head of the field person, the call device 6 adopts a wireless signal earphone, in addition, a camera 3, two display devices 4 and a wireless communicator 5 are also arranged on the image acquisition terminal 2, the wireless communicator 5 adopts a micro wireless signal transceiver with 4G, 5G communication function, WLAN function or Bluetooth function for transmitting and receiving image signals and audio signals, the image acquisition terminal 2 is used for real-time acquisition and visual operation of videos, the communication device 6 is used for real-time voice communication; firstly, the field personnel wear the image acquisition end 2 adopting the AR glasses, so that the field personnel can communicate freely without occupying hands, the action of the medical personnel is not influenced, and other operations of the medical personnel are not influenced. Video information is collected by the camera 3, and signals are transmitted to the two display devices 4 arranged in the picture frame, so that the video information is convenient for a wearer to watch; then, the signal is sent to a server 10 through an internet 9 through the wireless communicator 5, the internet 9 is a 4G, 5G network or a WLAN, the server 10 adopts a medical system server or a cloud server for information exchange, and the acquired information and data are processed by the server 10; finally, the signals are sent to each signal receiving feedback end 11 of the far end through the internet 9, the signal receiving feedback ends 11 all adopt equipment ends which are convenient for real-time communication and are AR glasses, a mobile phone, a tablet computer, a notebook computer or a desktop terminal, the signal receiving feedback ends 11 are synchronous with signals of an image acquisition end 2 which is worn by field personnel and adopts AR glasses, the medical equipment is connected through the Bluetooth function of the image acquisition end 2 of the field to acquire an inspection result, and the inspection result is transmitted to a doctor using the signal receiving feedback end 11 in real time through 4G, 5G or WLAN to help diagnosis, so that the field doctor can also see guiding image data provided by a far-end doctor through two display devices 4 in the image acquisition end 2 of the AR glasses and communicate with an expert doctor using the signal receiving feedback end 11 through a communication device 6, the illness state is diagnosed as soon as possible and treatment measures are taken; in addition, each set of information acquisition device 1 is also provided with a communication signal reinforcing device 8, the communication signal reinforcing device 8 adopts a wireless signal transceiver with 4G and 5G communication functions, WLAN function or Bluetooth function and high power, and the wireless signal transceiver is arranged on a working clothes worn by field personnel, when the environment where the field personnel are located cannot provide normal network signal service, the communication signal reinforcing device 8 can increase the network signal intensity and ensure the normal use of audio and video signals; the whole mechanism can also carry out multipoint connection, namely users of the signal receiving feedback end 11 at different positions receive images collected by a certain field person through the image collecting end 2 together for consultation, and the mechanism can also be used for accessing and sharing multipoint signals such as medical teaching instruction and the like, and is convenient and quick; the whole mechanism is clear in structure, convenient to use and operate, information exchange and data transmission are carried out by utilizing the Internet, diagnosis and treatment can be carried out in real time, diagnosis is confirmed in time, and the mechanism is suitable for various medical first-aid sites.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (8)

1. The utility model provides a AR telemedicine monitoring mechanism which characterized in that: comprises a plurality of information acquisition devices, an internet, a server and a plurality of signal receiving and feedback terminals, wherein any information acquisition device comprises an image acquisition terminal, a communication device and a communication signal strengthening device, the image acquisition end and the communication device are worn on the head of a field person, the communication signal strengthening device is worn on a work clothes worn by the field person, the image acquisition end and the communication device are movably connected, the image acquisition end and the communication device are connected with the communication signal strengthening device by wireless signals or Bluetooth signals, the communication device is also provided with a microphone which is positioned at the lower part of the communication device, the microphone is fixedly connected with the communication device by utilizing a shaped wire, the server is connected with the plurality of information acquisition devices and the plurality of signal receiving feedback ends by utilizing an internet.

2. The AR telemedicine monitoring facility of claim 1, wherein: the utility model discloses a glasses, including image acquisition end, camera, two display device and wireless communication ware, image acquisition end is AR glasses, still be equipped with camera, two display device and wireless communication ware on the image acquisition end, the camera is located between two display device, the picture frame of camera and image acquisition end is fixed connection, two display device are located the inboard of two picture frame structures of image acquisition end respectively, two display device all are fixed connection with the image acquisition end, wireless communication ware is located one side of image acquisition end, wireless communication ware and image acquisition end are fixed connection.

3. The AR telemedicine monitoring facility of claim 2, wherein: the wireless communicator is a micro wireless signal transceiver with 4G and 5G communication functions, WLAN function or Bluetooth function.

4. The AR telemedicine monitoring facility of claim 1, wherein: the communication device is a wireless signal earphone.

5. The AR telemedicine monitoring facility of claim 1, wherein: the communication signal strengthening device is a wireless signal transceiver with a 4G communication function, a 5G communication function, a WLAN function or a Bluetooth function and high power.

6. The AR telemedicine monitoring facility of claim 1, wherein: the internet is a 4G network, a 5G network or a WLAN.

7. The AR telemedicine monitoring facility of claim 1, wherein: the server is a medical system server or a cloud server.

8. The AR telemedicine monitoring facility of claim 1, wherein: the signal receiving feedback ends are all AR glasses, mobile phones, tablet computers, notebook computers and desktop terminals.

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