CN111067480A - Remote monitoring intelligent medical system based on image processing - Google Patents

Abstract

The invention discloses an image processing-based remote monitoring intelligent medical system which comprises a transmission mechanism, an induction device, a detection device, an image collection device, a site display, a control device, a remote communication module, a doctor end display and a health medical database, wherein the transmission mechanism is provided with the detection device, the detection device is provided with the induction device, the detection device is provided with the image collection device, the induction device is electrically connected with the control device, the detection device is in data connection with the control device, the image collection device is in data connection with the control device, the control device is in data connection with the site display, the control device is in wireless connection with the remote communication module, and the remote communication module is in data connection with the doctor end display. The invention is convenient to use, reduces the death of the patient caused by the failure of timely treatment, and enables doctors to timely treat the patient in thousands of miles away.

Description

Remote monitoring intelligent medical system based on image processing

Technical Field

The invention relates to the field of image processing, in particular to an intelligent medical system for remote monitoring based on image processing.

Background

Along with the rapid development of the Chinese social economy, the excellent health conditions and the living quality of people are greatly improved, and the intelligent medical treatment is a mode which is generated along with the development of modern information technology, integrates the technologies of Internet of things, cloud computing and the like and takes patient data as the medical basis. The intelligent medical treatment is an emerging subject and a cross subject, life science and information science are fused, the key technology of the intelligent medical treatment lies in the important main city part of modern medicine and communication technology, the intelligent medical treatment realizes interaction between a patient and medical staff, a medical institution and medical equipment by creating a regional medical information platform with electronic health files as the center and utilizing the related technology of the Internet of things, and comprehensive informatization is gradually achieved.

However, the intelligent medical system in China is basically applied to places such as communities and hospitals, the remote monitoring is weaker than other medical systems, the medical level of the places is far lower than that of cities in most remote mountainous areas and rural areas, severe and complex natural factors such as mountainous areas, ravines and plateaus cause that the illness states of many patients cannot be diagnosed and transferred timely due to the influence of natural environment, and related medical care personnel cannot be driven to the places of the patients from urban hospitals timely, so that some patients who can be cured miss the optimal treatment time to worsen wounds and even die. Moreover, the natural disasters at present frequently occur, earthquakes, debris flows, floods and the like not only destroy the living environment in which people live to cause property loss, but also are more important, the natural disasters grab many innocent lives to cause many people to be injured, some seriously injured people can recover lives through treatment means, but medical staff cannot timely diagnose the injury on site because of the damaged traffic roads, the possibility of survival is lost, and the accidents are more serious than the pain! How to enable doctors to diagnose and treat patients in time becomes a problem to be solved urgently.

Disclosure of Invention

The invention aims to provide an intelligent medical system for remote monitoring based on image processing, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

the remote monitoring intelligent medical system based on image processing comprises a transmission mechanism, a sensing device, a detection device, an image collection device, a field display, a control device, a remote communication module, a doctor end display and a health medical database, the conveying mechanism is provided with a detection device, the detection device is provided with an induction device, the detection device is provided with an image collecting device, the sensing device is electrically connected with the control device, the detection device is in data connection with the control device, the image collecting device is in data connection with a control device, the control device is in data connection with a field display, the control device is wirelessly connected with the remote communication module, the remote communication module is in data connection with the doctor end display, the remote communication module is in data connection with the health medical database, and the doctor end display is in data connection with the health medical database.

As an optimization, the conveying mechanism comprises an inspection cabin, a guide rail, a conveying belt, a first fixed shaft, a working platform, a working cabin, a second fixed shaft, a base, a damping motor, a storage compartment, a third fixed shaft, a fourth fixed shaft, a connecting rod, a fixing bolt, a fixing device, an induction device and a medical stretcher, wherein the inspection cabin is arranged on the working platform and is fixedly connected with the working platform, the conveying belt is arranged in the working platform, a gap is formed between the conveying belt and the working platform, the conveying belt penetrates through the inspection, the guide rail is arranged on the outer side of the conveying belt and is fixedly connected with the working platform, the guide rail penetrates through the inspection cabin and penetrates through the fixing device, the fixing device is slidably connected with the guide rail, and the first fixed shaft, the second fixed shaft, the guide rail, the conveying belt, the first fixed shaft, the, Third fixed axle and fourth fixed axle, first fixed axle, second fixed axle, third fixed axle and fourth fixed axle and conveyer belt sliding connection, first fixed axle, second fixed axle, third fixed axle and fourth fixed axle outside are provided with the connecting piece, first fixed axle, second fixed axle, third fixed axle and fourth fixed axle and connecting piece fixed connection, the connecting piece of first fixed axle and fourth fixed axle passes through fixing bolt and work platform fixed connection, the working bin sets up under work platform, working bin and work platform fixed connection, the inside of working bin is cavity, the connecting piece of second fixed axle and third fixed axle passes through fixing bolt and working bin fixed connection, the inside thing of being provided with of working bin is put between, top and work platform fixed connection between the thing, bottom and second fixed axle between the thing, The third fixed shaft is fixedly connected, the inside of the object placing room is hollow, a damping motor is arranged in the object placing room and is electrically connected with the conveyor belt, a base is arranged below the working bin and is fixedly connected with the working bin, the sensing device is arranged on the outer side of the examination cabin and is arranged on the working platform, the sensing device is fixedly connected with the working platform and is an infrared sensing device, the sensing device is electrically connected with the control device, the medical stretcher is in sliding connection with the guide rail through the fixing device, a patient is arranged on the medical stretcher, the patient can move forward towards the examination cabin along with the movement of the conveyor belt through the fixing device and the guide rail, the patient is prevented from falling off the conveyor belt to cause secondary injury, the damping motor can resist shock and also can damp, and the whole conveyor belt can move stably, reduce conveyer belt vibrations and cause the patient wounded the feelings aggravate, the influence of noise abatement to patient's mood, induction system senses patient and gets into the inspection cabin, and at this moment, controlling means just controls the conveyer belt stop motion, makes patient can inspect in the inspection cabin.

Preferably, the detection device comprises a lifting device, a touch sensing device, a light source device, a heartbeat blood pressure detection device, a laser impact device and a scanning device, the light source device is arranged on the inner wall of the inspection chamber, the light source device comprises LED lamp beads, an aluminum substrate, a power supply driving device and a brightness adjusting device, the LED lamp beads are arranged on the aluminum substrate, the LED lamp beads are fixedly connected with the aluminum substrate, the aluminum substrate is electrically connected with the power supply driving device, the power supply driving device is electrically connected with the brightness adjusting device, the brightness adjusting device is electrically connected with a control device, the lifting device is arranged on the inner wall of the inspection chamber, the touch sensing device is arranged at the bottom of the lifting device, the heartbeat blood pressure detection device is arranged on the touch sensing device, the lifting device is electrically connected with the control device, and the touch sensing device is electrically connected with the, the heartbeat blood pressure detection device is in data connection with the control device, the heartbeat blood pressure detection device comprises a heartbeat detection module and a blood pressure detection module, the laser impact device is arranged on the inner wall of the examination cabin, the laser impact device adopts a laser impact technology, the laser impact device is in data connection with the image collection device, the scanning device is arranged on the inner wall of the examination cabin, the scanning device is in data connection with the image collection device, a patient enters the examination cabin, the control device opens the brightness adjustment device, the power supply driving device drives the LED lamp beads to emit light to provide a light source for the examination cabin, in addition, the control device controls the lifting device to descend downwards until the touch sensing device at the bottom of the lifting device contacts with the skin of the human body, the lifting device stops moving, and at the moment, the heartbeat blood pressure detection device detects the heartbeat and the blood pressure of the patient, after the detection is finished, the control device controls the lifting device to ascend and recover to the initial position, the laser impact device emits rays which do not harm the human body to the patient to obtain data of each skin depth of the patient, accordingly, the condition that internal tissues and organs of the patient are damaged is obtained, and the scanning device scans the outside of the human body to obtain the data of the damage of the external skin of the patient.

As an optimization, the image collecting device comprises an RGB camera, an image collecting module and an image sending module, the RGB camera is arranged on the inner wall of the examination cabin, the RGB camera is in data connection with the image collecting module, the laser impact device is in data connection with the image collecting module, the scanning device is in data connection with the image collecting module, the image collecting module is in data connection with the image sending module, the image sending module is in data connection with the control device, the RGB camera of the image collecting device is used for obtaining the face image of the patient and the images of other parts of the body, the image collecting module is used for obtaining the images of internal organs of the human body under the laser impact device and obtaining the images of bleeding tissues and normal tissues, the image collecting module can also obtain the position image of the trauma of the patient scanned by the scanning device, and the images collected by all the image collecting modules are transmitted into the control device for analysis through the image sending module, and extracting image features.

As an optimization, the control device comprises a microprocessor, a single chip microcomputer and an image processing module, the single chip microcomputer is an AT89C52 single chip microcomputer, the single chip microcomputer is electrically connected with the damping motor through a lead, the single chip microcomputer is electrically connected with the brightness adjusting module, the single chip microcomputer is electrically connected with the lifting device, the single chip microcomputer is electrically connected with the touch sensing device, the microprocessor is in data connection with the image acquisition module, the microprocessor is in data connection with the heartbeat detection module, the microprocessor is in data connection with the blood pressure detection module, the image processing module is in data connection with the microprocessor, the microprocessor is in data connection with the field display, and the microprocessor is in data connection with the remote communication module.

As an optimization, the field display comprises a display screen, an information receiving end, an information storage module, an information management module and a signal sending end, wherein the display screen is in data connection with the information receiving end, the display screen is an LED display screen, the information storage module is in data connection with the information receiving end, the information management module is in data connection with the information sending end, the information sending end is in data connection with a doctor end display, the doctor end display is in data connection with the information receiving end, and the information receiving end is in data connection with a microprocessor.

As an optimization, the remote communication module comprises a satellite communication module and a wireless wide area network communication module, the satellite communication module is a GPS or beidou system, the satellite communication module comprises a satellite receiving module and a satellite sending module, the satellite receiving module is wirelessly connected with an antenna at the location of the transmission mechanism, the satellite sending module is in data connection with the doctor end display, the wireless wide area network communication module is a GPRS module or a TD-LTE or a TD-SCDMA, the wireless wide area network communication module comprises an uplink information transmission module and a downlink information output module, the uplink information transmission module is in data connection with the microprocessor, the downlink information output module is in data connection with the health medical database, the remote communication module sends the position information of the patient to the doctor end display through the satellite communication module, and the wireless wide area network communication module sends the image information and the data obtained by the microprocessor to the health medical database And (6) carrying out comparison.

As optimization, the health medical database is in data connection with a communication module and comprises a receiving data port, a processing module, a search engine, a classification module, a short message generation module and a sending data port, the receiving data port is in data connection with an uplink information transmission channel, the receiving data port is in data connection with the processing module, the processing module is in data connection with the search engine, the search engine is in data connection with the classification module, the classification module is in data connection with the short message generation module, the short message generation module is in data connection with the sending data port, the sending data port is in data connection with a doctor end display, the sending data port is in data connection with a downlink information transmission channel, the health medical database compares image information and data uploaded by the communication module with corresponding normal standard data searched by the search engine, analyzing, finding abnormal data, classifying the found abnormal data by a classification module, for example, classifying trauma to surgery, classifying heartbeat and blood pressure to cardiovascular department, connecting the classified data with personal information of patients, generating short messages by a short message generation module, and sending the short messages to a doctor end display.

As an optimization, the doctor end display is in data connection with the health medical database, the doctor end display is a mobile phone or a computer, the doctor end display comprises an intelligent display screen, an information receiving module, an information management module and an information sending module, the information receiving module is in data connection with a satellite sending module, the information receiving module is in data connection with a data sending port, the information receiving module is in data connection with the intelligent display screen, the intelligent display screen is in data connection with the information management module, the information management module is in data connection with the information receiving module, the information sending module is in data connection with a field display, the wireless sending module is in data connection with an information receiving end, the information sending module is in data connection with a downlink information transmission channel, the doctor end display receives data sent by the health medical database, and an expert team formed by doctors analyzes each data of patients and provides a solution, the information management module records and stores the solution, and sends the solution to the on-site display through the information sending module, and medical personnel on site treat the patient according to the solution provided by the doctor, so that the aims of remotely monitoring the state of the patient and timely and correctly treating the patient are fulfilled.

Preferably, the damping motor comprises a lengthened guide rod, a first nut, a first bearing, a second nut, a guide rod, a third bearing, a third nut, a motor, a damping rubber pad, silencing cotton, a heat dissipation layer, a heat dissipation fin and a shell, the motor is electrically connected with the single chip microcomputer, a motor rotor is fixedly connected with the guide rod, the lengthened guide rod is arranged on the outer side of the guide rod and fixedly connected with the motor, the diameter of the lengthened guide rod is larger than that of the guide rod, a gap is formed between the lengthened guide rod and the guide rod, the third bearing is arranged in the gap and arranged between the guide rod and the lengthened guide rod, the third nut is arranged between the guide rod and the lengthened guide rod, a precise spiral groove is arranged on the guide rod and fixedly connected with the third nut in a matched manner, and the shell is arranged on the outer side of the motor, the extension guide rod stretches out the shell, be provided with first bearing and second bearing in shell and the extension guide rod contact surface, first bearing and second bearing set up the outside at the extension guide rod, the outside of first bearing is provided with first nut, the outside of second bearing is provided with the second nut, be provided with accurate helicla flute on the contact surface of extension guide rod and first nut and second nut, accurate helicla flute matches fixed connection with first nut and second nut, be provided with the inner chamber between shell and the motor, the inner chamber includes damping rubber pad, amortization cotton and heat dissipation layer, the damping rubber pad sets up in the motor and the extension guide rod outside, the intracavity including the alternate stack of damping rubber pad and amortization cotton, be provided with the heat dissipation layer on the inner wall of shell, the heat dissipation layer includes the fin.

Compared with the prior art, the invention has the beneficial effects that: the invention carries out the examination of the patient in the examination cabin through the conveyor belt by the conveying mechanism, the damping motor can effectively prevent the patient from secondary damage in the conveying process and reduce the influence of noise on the body and mind of the patient, the examination cabin obtains the heartbeat, blood pressure, internal injury and trauma data of the patient through the heartbeat and blood pressure detection device, the laser impact device and the scanning device and carries out the complete examination on the patient, the image acquisition device acquires the personal appearance characteristics of the patient, thereby facilitating the point-to-point treatment of the later treatment and preventing the treatment from being lost, the image acquisition device also acquires the image information of the heartbeat and blood pressure detection device, the laser impact device and the scanning device, the image characteristics are extracted through the analysis and the image processing of the microprocessor, the microprocessor transmits the processed image information and the data to the field display and the healthy medical database through the remote communication module, the medical system has the advantages that on-site medical personnel can see data of a patient, the health medical database carries out engine search and analysis on the obtained image information and data, abnormal data are classified and transmitted to the doctor end display, the doctor analyzes the abnormal data and images and finds a solution, the solution is sent to the on-site display, the on-site medical personnel treat the patient according to the solution of the expert, and the purpose of remotely monitoring the state of the patient by the doctor is achieved. The invention is convenient to use, reduces the death of the patient caused by the failure of timely treatment, and enables doctors to timely treat the patient in thousands of miles away.

Drawings

FIG. 1 is a schematic diagram of an image processing-based remote monitoring intelligent medical system according to the present invention;

FIG. 2 is a schematic diagram of an elevational structure of the image processing-based remote monitoring intelligent medical system of the present invention;

FIG. 3 is a schematic side view of an image processing-based remote monitoring intelligent medical system according to the present invention;

FIG. 4 is a schematic view of the anti-vibration motor structure of the image processing-based remote monitoring intelligent medical system of the present invention;

fig. 5 is a schematic view of a medical stretcher of the image processing-based remote monitoring intelligent medical system of the present invention.

FIG. 1 is a diagram of the image processing-based remote monitoring intelligent medical system

In the figure: 1-inspection cabin, 2-guide rail, 3-conveyor belt, 4-first fixed shaft, 5-working platform, 6-working cabin, 7-second fixed shaft, 8-base, 9-shock-absorbing motor, 901-lengthening guide rod, 902-first nut, 903-first bearing, 904-second bearing, 905-second nut and 906-guide rod, 907-a third bearing, 908-a third nut, 909-a motor, 9010-a damping rubber pad, 9011-noise reduction cotton, 9012-a heat dissipation layer, 9013-a heat dissipation sheet, 9014-a shell, 10-a storage compartment, 11-a third fixed shaft, 12-a fourth fixed shaft, 13-a connecting rod, 14-a fixed bolt, 15-a fixing device and 16-an induction device.

Detailed Description

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

As shown in FIG. 1, in the embodiment of the present invention, the intelligent medical system for remote monitoring based on image processing comprises a transmission mechanism, a sensing device, a detection device, an image collection device, a site display, a control device, a remote communication module, a doctor end display, and a health medical database, wherein the transmission mechanism is provided with the detection device, the detection device is provided with the sensing device, the detection device is provided with the image collection device, the sensing device is electrically connected with the control device, the detection device is in data connection with the control device, the image collecting device is in data connection with the control device, the control device is in data connection with the field display, the control device is in wireless connection with the remote communication module, the remote communication module is in data connection with the doctor end display, the remote communication module is in data connection with the health medical database, and the doctor end display is in data connection with the health medical database.

As shown in fig. 2, 3 and 5, the conveying mechanism comprises an inspection cabin 1, a guide rail 2, a conveyor belt 3, a first fixed shaft 4, a working platform 5, a working cabin 6, a second fixed shaft 7, a base 8, a damping motor 9, a storage compartment 10, a third fixed shaft 11, a fourth fixed shaft 12, a connecting rod 13, a fixing bolt 14, a fixing device 15, a sensing device 16 and a medical stretcher 17, wherein the inspection cabin 1 is arranged on the working platform 5, the inspection cabin 1 is fixedly connected with the working platform 5, the conveyor belt 3 is arranged in the working platform 5, a gap is arranged between the conveyor belt 3 and the working platform 5, the conveyor belt 3 passes through the inspection cabin 1, the guide rail 2 is arranged on the working platform 5, the guide rail 2 is fixedly connected with the working platform 2, the guide rail 2 passes through the inspection cabin 1, the guide rail 2 passes through the fixing device 15, the fixing device 15 is slidably connected with the guide rail 2, the conveyor belt 3 is internally provided with a first fixed shaft 4, a second fixed shaft 7, a third fixed shaft 11 and a fourth fixed shaft 12, the first fixed shaft 4, the second fixed shaft 7, the third fixed shaft 11 and the fourth fixed shaft 12 are connected with the conveyor belt 3 in a sliding way, the outer sides of the first fixed shaft 4, the second fixed shaft 7, the third fixed shaft 11 and the fourth fixed shaft 12 are provided with connecting pieces 13, the first fixed shaft 4, the second fixed shaft 7, the third fixed shaft 11 and the fourth fixed shaft 12 are fixedly connected with the connecting pieces 13, the connecting pieces 13 of the first fixed shaft 4 and the fourth fixed shaft 12 are fixedly connected with the working platform 5 through fixing bolts 14, the working bin 6 is arranged under the working platform 5, the working bin 6 is fixedly connected with the working platform 5, the inside of the working bin 6 is hollow, the connecting pieces 13 of the second fixed shaft 7 and the third fixed shaft 11 are fixedly connected with the working bin 6 through, the inside of a working chamber 6 is provided with a storage room 10, the top of the storage room 10 is fixedly connected with a working platform 5, the bottom of the storage room 10 is fixedly connected with a second fixed shaft 7 and a third fixed shaft 11, the inside of the storage room 10 is hollow, a damping motor 9 is arranged in the storage room 10, the damping motor 9 is electrically connected with a conveyor belt 5, a base 8 is arranged under the working chamber 6, the base 8 is fixedly connected with the working chamber 6, an induction device 16 is arranged outside an inspection chamber 1, the induction device 16 is arranged on the working platform 5, the induction device 16 is fixedly connected with the working platform 5, the induction device 16 is an infrared induction device, a control device of the induction device 16 is electrically connected, the medical stretcher 17 is slidably connected with a guide rail 2 through a fixing device 15, a patient is arranged on the medical stretcher 17, and moves forward towards the inspection chamber 1 along with the movement of the conveyor belt 3 through the fixing device, prevent that patient from leading to the fact secondary damage from falling from conveyer belt 3, shockproof motor 9 also can the amortization can take precautions against earthquakes for the very steady motion of whole conveyer belt 3 reduces conveyer belt 3 vibrations and causes patient's injury aggravation, and the noise abatement is to the influence of patient's mood, and induction system 16 senses patient and gets into the inspection cabin, and at this moment, controlling means just controls the conveyer belt stop motion, makes patient can inspect in inspection cabin 1.

As shown in FIG. 1, the detection device comprises a lifting device, a touch sensing device, a light source device, a heartbeat blood pressure detection device, a laser shock device and a scanning device, the light source device is arranged on the inner wall of the inspection chamber, the light source device comprises LED lamp beads, an aluminum substrate, a power supply driving device and a brightness adjusting device, the LED lamp beads are arranged on the aluminum substrate, the LED lamp beads are fixedly connected with the aluminum substrate, the aluminum substrate is electrically connected with the power supply driving device, the power supply driving device is electrically connected with the brightness adjusting device, the brightness adjusting device is electrically connected with a control device, the lifting device is arranged on the inner wall of the inspection chamber, the touch sensing device is arranged at the bottom of the lifting device, the heartbeat blood pressure detection device is arranged on the touch sensing device, the lifting device is electrically connected with the control device, the touch sensing device is electrically connected, the heartbeat and blood pressure detection device comprises a heartbeat detection module and a blood pressure detection module, wherein a laser impact device is arranged on the inner wall of an examination cabin, the laser impact device adopts a laser impact technology, the laser impact device is in data connection with an image collecting device, a scanning device is arranged on the inner wall of the examination cabin, the scanning device is in data connection with the image collecting device, a patient enters the examination cabin, a control device opens a brightness adjusting device, a power supply driving device drives an LED lamp bead to emit light to provide a light source for the examination cabin, in addition, the control device controls a lifting device to descend downwards until a touch sensing device at the bottom of the lifting device contacts the skin of the human body, the lifting device stops moving, at the moment, the heartbeat and blood pressure detection device detects the heartbeat and blood pressure of the patient, after the detection is finished, the control device controls the lifting device to ascend to restore to an initial position, and the laser impact device emits rays which do no, the data of the skin depth of each patient is obtained, so that the condition that internal tissues and organs of the patient are damaged is obtained, and the scanning device scans the outside of the human body to obtain the data of the damaged external skin of the patient.

As shown in figure 1, the image collecting device comprises an RGB camera, an image collecting module and an image sending module, the RGB camera is arranged on the inner wall of the inspection chamber 1, the RGB camera is in data connection with the image collecting module, the laser impact device is in data connection with the image collecting module, the scanning device is in data connection with the image collecting module, the image collecting module is in data connection with the image sending module, the image sending module is in data connection with the control device, the RGB camera of the image collecting device is used for obtaining human face images and other body part images of a patient, the image collecting module is used for obtaining internal organs images of the human body under the laser impact device and obtaining bleeding tissue and normal tissue images, the image collecting module can also obtain position images of trauma of the patient scanned by the scanning device, and the images collected by all the image collecting modules are transmitted into the control device for analysis through the image sending module, and extracting image features.

As shown in fig. 1, the control device comprises a microprocessor, a single chip microcomputer and an image processing module, the single chip microcomputer is an AT89C52 single chip microcomputer, the single chip microcomputer is electrically connected with the shock absorption motor 9 through a lead, the single chip microcomputer is electrically connected with the brightness adjustment module, the single chip microcomputer is electrically connected with the lifting device, the single chip microcomputer is electrically connected with the touch sensing device, the microprocessor is in data connection with the image acquisition module, the microprocessor is in data connection with the heartbeat detection module, the microprocessor is in data connection with the blood pressure detection module, the image processing module is in data connection with the microprocessor, the microprocessor is in data connection with the field display, the microprocessor is in data connection with the remote communication module, the single chip microcomputer is used for controlling the shock absorption motor so as to enable the conveyor belt to convey patients into the examination cabin, the single chip microcomputer is also used for controlling, the image is subjected to image denoising, image enhancement, image perspective and image correction to obtain a characteristic part of the image, the processed image is analyzed and classified into labels, and the result is transmitted to an on-site display, a remote communication module and a health medical database and a doctor end display.

As shown in fig. 1, the field display includes a display screen, an information receiving end, an information storage module, an information management module and a signal transmitting end, the display screen is in data connection with the information receiving end, the display screen is an LED display screen, the information storage module is in data connection with the information receiving end, the information management module is in data connection with the information transmitting end, the information transmitting end is in data connection with a doctor end display, the doctor end display is in data connection with the information receiving end, the information receiving end is in data connection with a microprocessor, the field display is used for displaying received image information and image characteristics on the LED display screen in the form of characters and pictures, and information of a patient is recorded and transmitted to the doctor end display screen by a medical staff on site.

As shown in fig. 1, the long-range communication module includes a satellite communication module, the wireless wide area network communication module is a GPS or Beidou system, the satellite communication module comprises a satellite receiving module and a satellite sending module, the satellite receiving module is in wireless connection with an antenna at the location of the transmission mechanism, the satellite sending module is in data connection with a doctor end display, the wireless wide area network communication module is a GPRS module or a TD-LTE or a TD-SCDMA, the wireless wide area network communication module comprises an uplink information transmission module and a downlink information output module, the uplink information transmission module is in data connection with a microprocessor, the downlink information output module is in data connection with a health medical database, the remote communication module sends the position information of a patient to the doctor end display through the satellite communication module, and the wireless wide area network communication module sends the image information and the data obtained by the microprocessor to the health medical database for comparison.

As shown in fig. 1, the health medical database is connected with the communication module in a data manner, the health medical database comprises a receiving data port, a processing module, a search engine, a classification module, a short message generation module and a sending data port, the receiving data port is connected with the uplink information transmission channel in a data manner, the receiving data port is connected with the processing module, the processing module is connected with the search engine in a data manner, the search engine is connected with the classification module in a data manner, the classification module is connected with the short message generation module in a data manner, the short message generation module is connected with the sending data port in a data manner, the sending data port is connected with the doctor end display in a data manner, the sending data port is connected with the downlink information transmission channel in a data manner, the health medical database compares image information and data uploaded by the communication module with corresponding normal standard data searched by the search engine, for example, trauma is classified into surgery, heartbeat and blood pressure are classified into cardiovascular department, classified data are connected with personal information of patients to generate short messages through a short message generating module, and the short messages are sent to a doctor end display.

As shown in figure 1, the doctor end display is in data connection with the health medical database, the doctor end display is a mobile phone or a computer, the doctor end display comprises an intelligent display screen, an information receiving module, an information management module and an information sending module, the information receiving module is in data connection with the satellite sending module, the information receiving module is in data connection with the data sending port, the information receiving module is in data connection with the intelligent display screen, the intelligent display screen is in data connection with the information management module, the information management module is in data connection with the information receiving module, the information sending module is in data connection with the field display, the wireless sending module is in data connection with the information receiving end, the information sending module is in data connection with a downlink information transmission channel, the doctor end display receives data sent by the health medical database, and an expert team consisting of doctors analyzes each data of patients and provides a solution, the information management module records and stores the solution, and sends the solution to the on-site display through the information sending module, and medical personnel on site treat the patient according to the solution provided by the doctor, so that the aims of remotely monitoring the state of the patient and timely and correctly treating the patient are fulfilled.

As shown in fig. 4, the shock-absorbing motor 9 includes a lengthened guide bar 901, a first nut 902, a first bearing 903, a second bearing 904, a second nut 905, a guide bar 906, a third bearing 907, a third nut 908, a motor 909, a damping rubber pad 9010, noise-absorbing cotton 9011, a heat dissipation layer 9012, a heat dissipation fin 9013 and a housing 9014, the motor 909 is electrically connected to the single chip microcomputer, a rotor of the motor 909 is fixedly connected to the guide bar 906, a lengthened guide bar 901 is disposed outside the guide bar 906, the lengthened guide bar 901 is fixedly connected to the motor 909, the diameter of the lengthened guide bar 901 is larger than that of the guide bar 906, a gap is disposed between the lengthened guide bar 901 and the guide bar 906, the third bearing 907 is disposed in the gap, the third bearing 907 is disposed between the guide bar 906 and the lengthened guide bar 901, the third nut 908 is disposed between the guide bar 906 and the lengthened guide bar 901, a precise spiral, a shell 9014 is arranged on the outer side of a motor 909, a lengthened guide rod 901 extends out of the shell 9014, a first bearing 903 and a second bearing 904 are arranged outside the contact surface of the shell 9014 and the lengthened guide rod 901, the first bearing 903 and the second bearing 904 are arranged outside the lengthened guide rod 901, a first nut 902 is arranged outside the first bearing 903, a second nut 905 is arranged outside the second bearing 904, a precise spiral groove is arranged on the contact surface of the lengthened guide rod 901 and the first nut 902 and the second nut 905, the precise spiral groove is matched and fixedly connected with the first nut 902 and the second nut 905, an inner cavity is arranged between the shell 9014 and the motor 909 and comprises a damping rubber pad 9010, silencing cotton 9011 and a heat dissipation layer 9012, the damping rubber pad 9010 is arranged outside the motor 909 and the lengthened guide rod 901, the damping rubber pad 9010 and the silencing cotton 9011 are alternately overlapped in the inner cavity, the heat dissipation layer 9012 is arranged on the inner wall of, the heat dissipation layer 9012 includes a plurality of heat dissipation fins 9013.

The invention carries out the examination of the patient in the examination cabin through the conveyor belt by the conveying mechanism, the damping motor can effectively prevent the patient from secondary damage in the conveying process and reduce the influence of noise on the body and mind of the patient, the examination cabin obtains the heartbeat, blood pressure, internal injury and trauma data of the patient through the heartbeat and blood pressure detection device, the laser impact device and the scanning device and carries out the complete examination on the patient, the image acquisition device acquires the personal appearance characteristics of the patient, thereby facilitating the point-to-point treatment of the later treatment and preventing the treatment from being lost, the image acquisition device also acquires the image information of the heartbeat and blood pressure detection device, the laser impact device and the scanning device, the image characteristics are extracted through the analysis and the image processing of the microprocessor, the microprocessor transmits the processed image information and the data to the field display and the healthy medical database through the remote communication module, the medical system has the advantages that on-site medical personnel can see data of a patient, the health medical database carries out engine search and analysis on the obtained image information and data, abnormal data are classified and transmitted to the doctor end display, the doctor analyzes the abnormal data and images and finds a solution, the solution is sent to the on-site display, the on-site medical personnel treat the patient according to the solution of the expert, and the purpose of remotely monitoring the state of the patient by the doctor is achieved. The invention is convenient to use, reduces the death of the patient caused by the failure of timely treatment, and enables doctors to timely treat the patient in thousands of miles away.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (1)

1. Remote monitoring wisdom medical system based on image processing, its characterized in that: including transport mechanism, induction system, detection device, image collection device, on-site display, controlling means, remote communication module, doctor end display, healthy medical database, transport mechanism is last to be provided with detection device, last induction system that is provided with of detection device, last image collection device that is provided with of detection device, induction system is connected with the controlling means electricity, detection device and controlling means data connection, image collection device and controlling means data connection, controlling means and on-site display data connection, controlling means and remote communication module wireless connection, remote communication module and doctor end display data connection, remote communication module and healthy medical database data connection, doctor end display data connection healthy medical database, transport mechanism is including examining cabin (1), The medical stretcher comprises a guide rail (2), a conveyor belt (3), a first fixed shaft (4), a working platform (5), a working bin (6), a second fixed shaft (7), a base (8), a damping motor (9), a storage compartment (10), a third fixed shaft (11), a fourth fixed shaft (12), a connecting rod (13), a fixing bolt (14), a fixing device (15), an induction device (16) and a medical stretcher (17), wherein the inspection compartment (1) is arranged on the working platform (5), the inspection compartment (1) is fixedly connected with the working platform (5), the conveyor belt (3) is arranged in the working platform (5), a gap is formed between the conveyor belt (3) and the working platform (5), the conveyor belt (3) penetrates through the inspection compartment (1), the guide rail (2) is arranged on the outer side of the conveyor belt (3), and the guide rail (2) is arranged on the working platform (5), the guide rail (2) is fixedly connected with the working platform (5), the guide rail (2) penetrates through the inspection chamber (1), the guide rail (2) penetrates through the fixing device (15), the fixing device (15) is in sliding connection with the guide rail (2), a first fixing shaft (4), a second fixing shaft (7), a third fixing shaft (11) and a fourth fixing shaft (12) are arranged in the conveyor belt (3), the first fixing shaft (4), the second fixing shaft (7), the third fixing shaft (11) and the fourth fixing shaft (12) are in sliding connection with the conveyor belt (3), a connecting rod (13) is arranged on the outer sides of the first fixing shaft (4), the second fixing shaft (7), the third fixing shaft (11) and the fourth fixing shaft (12), and the first fixing shaft (4), the second fixing shaft (7), the third fixing shaft (11) and the fourth fixing shaft (12) are fixedly connected with the connecting rod (13), the connecting rod (13) of the first fixing shaft (4) and the fourth fixing shaft (12) is fixedly connected with the working platform (5) through a fixing bolt (14), the working bin (6) is arranged under the working platform (5), the working bin (6) is fixedly connected with the working platform (5), the working bin (6) is hollow, the connecting rod (13) of the second fixing shaft (7) and the third fixing shaft (11) is fixedly connected with the working bin (6) through the fixing bolt (14), an object placing room (10) is arranged inside the working bin (6), the top of the object placing room (10) is fixedly connected with the working platform (5), the bottom of the object placing room (10) is fixedly connected with the second fixing shaft (7) and the third fixing shaft (11), the inside of the object placing room (10) is hollow, and a damping motor (9) is arranged in the object placing room (10), the damping motor (9) is electrically connected with the conveyor belt (5), a base (8) is arranged below the working bin (6), the base (8) is fixedly connected with the working bin (6), the sensing device (16) is arranged on the outer side of the inspection cabin (1), the sensing device (16) is arranged on the working platform (5), the sensing device (16) is fixedly connected with the working platform (5), the sensing device (16) is an infrared sensing device, the sensing device (16) is electrically connected with the control device, and the medical stretcher (17) is slidably connected with the guide rail (2) through a fixing device (15);

the damping motor (9) comprises a lengthened guide rod (901), a first nut (902), a first bearing (903), a second bearing (904), a second nut (905), a guide rod (906), a third bearing (907), a third nut (908), a motor (909), a damping rubber pad (9010), silencing cotton (9011), a heat dissipation layer (9012), a heat dissipation sheet (9013) and a shell (9014), wherein the motor (909) is electrically connected with a single chip microcomputer, a rotor of the motor (909) is fixedly connected with the guide rod (906), the outer side of the guide rod (906) is provided with the lengthened guide rod (901), the lengthened guide rod (901) is fixedly connected with the motor (909), the diameter of the lengthened guide rod (901) is larger than that of the guide rod (906), a gap is formed between the lengthened guide rod (901) and the guide rod (906), the third bearing (907) is arranged in the gap, and the third bearing (907) is arranged between the guide rod (906) and the lengthened guide rod (901), a third nut (908) is arranged between the guide rod (906) and the lengthened guide rod (901), a precise spiral groove is arranged on the guide rod (906), the precise spiral groove is matched and fixedly connected with the third nut (908), a shell (9014) is arranged on the outer side of the motor (909), the lengthened guide rod (901) extends out of the shell (9014), a first bearing (903) and a second bearing (904) are arranged in the contact surface of the shell (9014) and the lengthened guide rod (901), the first bearing (903) and the second bearing (904) are arranged on the outer side of the lengthened guide rod (901), a first nut (902) is arranged on the outer side of the first bearing (903), a second nut (905) is arranged on the outer side of the second bearing (904), and precise spiral grooves are arranged on the contact surfaces of the lengthened guide rod (901), the first nut (902) and the second nut (905), the precision spiral groove is fixedly connected with a first nut (902) and a second nut (905) in a matched mode, an inner cavity is formed between the shell (9014) and the motor (909), the inner cavity comprises a damping rubber pad (9010), silencing cotton (9011) and a heat dissipation layer (9012), the damping rubber pad (9010) is arranged on the outer side of the motor (909) and the outer side of the lengthened guide rod (901), the damping rubber pad (9010) and the silencing cotton (9011) are stacked in an alternate mode in the inner cavity, the heat dissipation layer (9012) is arranged on the inner wall of the shell (9014), and the heat dissipation layer (9012) comprises heat dissipation fins (9013).

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