SUMMERY OF THE UTILITY MODEL
In view of the above, the present invention is directed to a remote medical testing device and system to overcome the above-mentioned problems.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a remote medical detection device comprises a detection main body, a tongue depressor and an otoscope;
the detection main body is provided with a first optical detection module, a medical detection sensor, a processor, a memory and a communication module;
the detection main body is provided with an interface for fixing the tongue depressor or the otoscope, and the interface is provided with a communication power supply connector;
the first optical detection module, the medical detection sensor, the communication power connector, the memory and the communication module are respectively connected with the processor, and the communication module is also connected with a preset terminal device through a wireless network;
the first optical detection module is arranged at the interface and used for acquiring body surface image information, or acquiring cavity and larynx image information when the tongue depressor fixed at the interface assists in detecting the oral cavity and/or the larynx;
the otoscope is provided with a second optical detection module, a lead of the second optical detection module extends to the edge of the otoscope, so that when the otoscope is installed on the interface, the second optical detection module is communicated with the processor through the communication power connector, and the second optical detection module is used for acquiring ear canal image information;
the medical detection sensor is used for acquiring body parameter information;
the processor is used for controlling the communication module to send at least one detection information of the body surface image information, the cavity throat image information, the ear canal image information and the body parameter information to the terminal equipment, so that the terminal equipment sends the detection information to a remote server and obtains diagnosis information fed back by the remote server;
the memory is used for storing the body surface image information, the cavity larynx image information, the ear canal image information and the body parameter information.
Further, the remote medical detection device as described above, the medical detection sensor comprising a temperature sensor and a heart rate oximetry sensor;
the temperature sensor and the heart rate blood oxygen sensor are respectively connected with the processor;
the temperature sensor is used for detecting body temperature information;
the heart rate blood oxygen sensor is used for detecting heart rate blood oxygen information.
Furthermore, the remote medical detection device also comprises a battery module;
the battery module is arranged on the detection main body, and a charging socket for charging is arranged on the battery module;
the battery module is respectively connected with the first optical detection module, the medical detection sensor, the communication power connector, the processor and the communication module.
Further, the remote medical detection device also comprises a human-computer interaction device;
the human-computer interaction device is arranged on the detection main body and connected with the processor;
wherein the human-computer interaction device comprises a touch display screen.
Furthermore, the remote medical detection device is characterized in that the detection main body is also provided with a switch key and a function key;
the switch key and the function key are respectively connected with the processor.
Further, the above telemedicine detection device further comprises a speaker disposed on the detection body;
the speaker is connected with the processor.
Further, in the above remote medical examination apparatus, the otoscope uses a light condensing material.
Furthermore, in the remote medical detection device, the otoscope is detachably fixed at the interface in any one of a snap-in type, a magnetic type and a spring extrusion type;
the tongue depressor is also detachably fixed at the interface in any one of a buckling mode, a magnetic suction mode and a spring extrusion mode.
Further, in the above remote medical detection apparatus, the first optical detection module includes a camera and an illumination lamp;
the second optical detection module comprises a miniature camera and a miniature illuminating lamp.
The utility model also provides a remote medical detection system, which comprises a terminal device and any one of the remote medical detection devices;
the remote medical detection equipment is connected with the terminal equipment;
the terminal equipment is also connected with the server;
the terminal equipment is used for sending the detection information acquired from the remote medical detection equipment to the server so as to acquire the diagnosis information fed back by the server according to the detection information.
The utility model discloses a telemedicine check out test set and system, including detecting main part, tongue depressor and otoscope. The first optical detection module is arranged at the interface of the detection main body and used for acquiring body surface image information, or acquiring the image information of the cavity and the larynx when the oral cavity is detected through the tongue depressor fixed at the interface. The otoscope is provided with a second optical detection module used for acquiring the image information of the auditory canal. The medical detection sensor is used for acquiring body parameter information. The processor is used for controlling the communication module to send at least one detection information of body surface image information, cavity throat image information, ear canal image information and body parameter information to the terminal equipment, so that the terminal equipment sends the detection information to the remote server and obtains the diagnosis information fed back by the remote server. Adopt the technical scheme of the utility model, realized carrying out real time monitoring to specific personnel's health, just can obtain expert doctor's medical service at home.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Fig. 1 is a structural diagram of an embodiment of the remote medical testing device of the present invention, and fig. 2 is a view of the testing body in fig. 1 along a direction a. As shown in fig. 1 and 2, the remote medical test apparatus of the present embodiment includes a test main body 11, a tongue depressor 12, and an otoscope 13.
The detection main body 11 can work independently for detection; fig. 3 is a structural diagram of a tongue depressor mounted on a detection main body in the remote medical detection device of the present invention, as shown in fig. 3, a tongue depressor 12 can also be mounted on a detection main body 11, and the detection main body is matched with the tongue depressor 12 for oral cavity detection; fig. 4 is the structure diagram of the detecting main body mounting otoscope in the remote medical detecting device of the present invention, as shown in fig. 4, the detecting main body 11 can also mount the otoscope 13, and cooperate with the otoscope 13 to perform the ear canal detection.
Fig. 5 is a circuit block diagram provided by an embodiment of the remote medical detection apparatus of the present invention, as shown in fig. 1 to 5, the detection main body 11 is provided with a first optical detection module 111, a medical detection sensor 112, a processor 113, a communication module 114 and a memory. The detection main body 11 is provided with an interface 115 for fixing the tongue depressor 12 or the otoscope 13, and the tongue depressor 12 and the otoscope 13 can be detachably fixed on the detection main body 11 through the interface 115 to realize the detection of the oral cavity or the ear canal of the user. A communication power connector 116 is arranged at the interface 115, the first optical detection module 111, the medical detection sensor 112, the communication power connector 116, the memory and the communication module 114 are respectively connected with the processor 113, and the communication module 114 is further connected with a preset terminal device.
The interface 115 may be disposed at one end of the detection main body 11, and the first optical detection module 111 is disposed at the interface 115, and is configured to acquire body surface image information, for example, skin state information, eye state information, and the like of the user may be acquired. One end of the tongue depressor 12 may be fixed to the interface 115, and the other end of the tongue depressor 12 may be inserted into the mouth of the user to detect the mouth of the user, and at this time, the first optical detection module 111 may obtain image information of the larynx of the cavity. The image information of the cavity and the larynx may include image information of the oral cavity and image information of the larynx, among others.
Various types of tongue depressors 12 can be provided, for example, a tongue depressor 12 having a small length and width is provided for children, and a tongue depressor 12 having a normal length and width is provided for adults. The tongue depressor 12 may be used as a disposable device to avoid cross-contamination problems.
The otoscope 13 is provided with a second optical detection module 131, a lead of the second optical detection module 131 extends to the edge of the otoscope 13, so that when the otoscope 13 is installed on the interface 115, the second optical detection module 131 is connected with the communication power connector 116, the communication power connector 116 comprises a communication connector and a power connector, and can transmit power signals and communication signals, and the second optical detection module 131 is communicated with the processor 113 through the communication power connector 116, so that the second optical detection module 131 can work under the control of the processor 113. Specifically, the second optical detection module 131 may acquire ear canal image information.
In addition, a medical detection sensor 112 for acquiring body parameter information.
The processor 113 may receive a detection signal sent by a user, and further control a device corresponding to the detection signal to operate according to the detection signal, so as to obtain body surface image information, cavity and throat image information, ear canal image information, or body parameter information. It should be noted that the body surface image information, the larynx image information, and the ear canal image information all include picture information and video information.
The processor 113 controls the communication module 114 to send at least one detection information of body surface image information, cavity larynx image information, ear canal image information and body parameter information to the terminal device, so that the terminal device sends the detection information to the remote server and obtains the diagnosis information fed back by the remote server.
The remote server can be connected with a host and a mobile terminal of a hospital or a doctor, and further sends detection information to the doctor, the doctor can diagnose the health state of a user through the detection information to give professional diagnosis information, and then sends the diagnosis information back to the terminal equipment through the server, and national and even global medical resource sharing can be realized through the online doctor reservation diagnosis mode, and cross infection of a patient in the hospital can be avoided; in addition, the remote server can also automatically generate diagnosis information by combining the acquired detection information based on a big data technology and an artificial intelligence technology, and sends the diagnosis information back to the terminal equipment, thereby effectively solving the problem of shortage of medical resources.
The user can also remotely monitor the physical state of the old, the infant or the patient through the remote medical detection equipment provided by the embodiment. The remote server can be connected with a host of a pharmacy, so that a user can purchase medicines, apply social security and the like through terminal equipment, and network integrated service of medical observation, medicine selling and social security and the like is achieved.
The memory is used for storing body surface image information, cavity throat image information, ear canal image information and body parameter information. When the processor 113 receives a message for calling a certain message, the message can be called from the memory and output through the communication module 114.
In a specific embodiment, the processor 113 uses a chip with a model number of MTK6737, and the communication module 114 may use a WIFI module or a bluetooth module. The communication module 114 is connected to the terminal device by wireless connection. The MTK6737 chip, the WIFI module, or the bluetooth module are all common devices in the prior art, and those skilled in the art can obtain their specific wiring diagrams without consuming creativity, which is not described in detail in this embodiment.
Further, the medical detection sensor 112 of the present embodiment includes a temperature sensor 1121 and a heart rate blood oxygen sensor 1122, and the temperature sensor 1121 and the heart rate blood oxygen sensor 1122 are respectively connected to the processor 113. A temperature sensor 1121 for detecting body temperature information, and a heart rate blood oxygen sensor 1122 for detecting heart rate blood oxygen information.
The temperature sensor 1121 and the heart rate blood oxygen sensor 1122 may be respectively disposed at both ends of the detecting body 11 or at the back opposite to the interface 115 so as to detect the body temperature information or the heart rate blood oxygen information of the user.
In a specific embodiment, the temperature sensor 1121 is a non-contact temperature sensor with a model of MLX90614ESF-BCC, and the heart rate blood oxygen sensor 1122 is a sensor with a model of MAX86141 or US5170, where the MLX90614ESF-BCC sensor, the MAX86141 sensor, and the US5170 sensor are also common devices in the prior art, and a person skilled in the art may obtain a specific wiring diagram without expending creativity, which is not described in detail in this embodiment.
The temperature sensor 1121 is disposed at one end of the detection body 11 at the interface 115, and the heart rate blood oxygen sensor 1122 is disposed at the other end of the detection body 11, as shown in fig. 1.
Further, the remote medical detection device of the embodiment further includes a battery module 15, the battery module 15 is disposed on the detection main body 11, a charging socket 151 for charging is disposed on the battery module 15, and the battery module 15 is respectively connected to the first optical detection module 111, the medical detection sensor 112, the communication power connector 116, the processor 113 and the communication module 114. The second optical detection module 131 is connected to the battery module 15 through the communication power connector 116.
In a specific embodiment, the charging socket 151 is a Type C-USB socket, and the user can use the mobile phone data line to charge the remote medical detection device, so that the remote medical detection device can be used more conveniently.
Further, the telemedicine detection device of the embodiment further includes a human-computer interaction device 14, the human-computer interaction device 14 is disposed on the detection main body 11, and the human-computer interaction device 14 is connected to the processor 113. In a particular embodiment, the human-computer interaction device 14 comprises a touchable display screen.
The user may send a detection signal, for example a detection signal for transmitting ear canal image information, by touching the touchable display. The operation state and various health state data of the remote medical detection equipment, such as electric quantity information, temperature information, heart rate and blood oxygen information, can be acquired through the touchable display screen.
Further, the detection main body 11 is also provided with a switch key 117 and a function key 118; the switch button 117 and the function button 118 are connected to the processor 113, respectively. Specifically, the user may turn the telemedicine detection device on or off by pressing the switch button 117. A plurality of function keys 118 may be provided, and then the corresponding function keys 118 may be pressed to start temperature detection, heart rate blood oxygen detection, oral cavity detection, etc., which is not limited in this embodiment.
Further, the telemedicine detection device of the present embodiment further includes a speaker 119 disposed on the detection main body 11, and the speaker 119 is connected to the processor 113. The speaker 119 can report body temperature information, heart rate blood oxygen information and the like, and when the actual electric quantity is less than the preset electric quantity, charging information can also be reported. The speaker 119 is also connected to the battery module 15.
In a specific embodiment, the user uses the remote medical detection device of the embodiment to measure the body temperature, the body temperature of the user is 36.5 ℃, and the speaker 119 can broadcast the current body temperature of 36.5 ℃ in voice.
Furthermore, the otoscope 13 uses a light-gathering material, which is beneficial to light supplement to shoot more clear pictures and videos in the ear canal. The light-gathering material may be an optical fiber or a TPU material, etc.
Further, the otoscope 13 is detachably fixed at the interface 115 in any one of a snap-in type, a magnetic type and a spring extrusion type; the tongue depressor 12 is also detachably fixed at the interface 115 by any one of a snap-in type, a magnetic-type and a spring-type.
Further, the first optical detection module 111 includes a camera and an illumination lamp, and the illumination lamp can provide light illumination for the camera. The second optical detection module 131 includes a micro camera and a micro illuminating lamp to reduce the size of the otoscope 13, so that the second optical detection module 131 can smoothly enter the external auditory canal to acquire the image information of the ear canal.
In one particular embodiment, to reduce the volume of the telemedicine detection device, the first optical detection module 111 and the second optical detection module 131 each use a camera with signal IMX 149.
The telemedicine detection device and system of the present embodiment includes a detection main body 11, a tongue depressor 12, and an otoscope 13. The first optical detection module 111 is disposed at the interface 115 of the detection main body 11 and is configured to acquire body surface image information, or acquire image information of the larynx when detecting the oral cavity through the tongue depressor 12 fixed at the interface 115. The otoscope 13 is provided with a second optical detection module 131 for acquiring ear canal image information. The medical detection sensor 112 is used to acquire body parameter information. The processor 113 is configured to control the communication module 114 to send at least one detection information of the body surface image information, the throat image information, the ear canal image information, and the body parameter information to the terminal device, so that the terminal device sends the detection information to the remote server and obtains the diagnosis information fed back by the remote server. By adopting the technical scheme of the embodiment, the health of specific personnel is monitored in real time, and medical services of experts and doctors can be obtained at home.
Fig. 6 is a block diagram of a circuit provided in one embodiment of the telemedicine detection system of the present invention. As shown in fig. 6, includes a terminal device 21 and a remote medical detection device 22 as described in the above embodiments. The telemedicine detection device 22 is connected to the terminal device 21. The terminal device 21 is further connected to the server 23, and the terminal device 21 is configured to send the detection information acquired from the telemedicine detection device 22 to the server 23 to acquire the diagnosis information fed back by the server 23 according to the detection information. The server 23 may be connected to a remote terminal 24, and the remote terminal 24 may be a computer, a mobile phone, or a tablet computer of an organization such as a hospital or a pharmacy.
It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.
It should be noted that, in the description of the present invention, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means at least two unless otherwise specified.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.