CN111387915A - Intelligent diagnosis device based on big data cloud platform - Google Patents

Abstract

The invention discloses an intelligent diagnosis device based on a big data cloud platform, which comprises a diagnosis device body, wherein the diagnosis device body comprises a cylindrical diagnosis probe with a hollow interior, the diagnosis probe comprises a miniature camera device which is arranged in the diagnosis probe and is used for acquiring images of vagina and cervix uteri and a searchlight which is arranged at the end part of the diagnosis probe and is used for providing a light source for the miniature camera device, the miniature camera shooting device comprises a spherical camera and a first electromagnetic telescopic rod, and the free end of the first electromagnetic telescopic rod is connected with the spherical camera. The intelligent gynecological disease diagnosis device provided by the invention can acquire picture and/or video image information of the vagina and cervix of a patient, the information is transmitted to an artificial intelligence center based on a big data cloud platform through a controller, the artificial intelligence center can carry out automatic diagnosis according to the acquired information and give a diagnosis result and a basic treatment suggestion.

Description

Intelligent diagnosis device based on big data cloud platform

Technical Field

The invention relates to the technical field of gynecological disease diagnosis devices, in particular to an intelligent diagnosis device based on a big data cloud platform.

Background

The appearance of the internet enables human beings to enter a knowledge explosion age, the current turning to cloud computing is a great change of the internet world, and the appearance of various cloud platforms is one of the important links of the change. The cloud platform also becomes a cloud computing platform, and can be divided into three categories: the cloud computing platform comprises a storage type cloud platform taking data storage as a main part, a computing type cloud platform taking data processing as a main part and a comprehensive cloud computing platform taking computing and data storage processing into consideration. Cloud computing platforms provide computing capabilities (including processors, memory, storage, network interfaces), but are not concerned with the type of application for the user. Users develop colorful applications by utilizing the computing power provided by the cloud computing platform and fully considering the (technical and economic) limits set by the cloud computing platform. The access of some conventional devices, facilities or services to the internet cloud platform will certainly make the functions thereof more powerful and colorful. Particularly in the medical field, the access of medical equipment or detection equipment to an internet cloud platform brings about subversive changes to the traditional medical industry.

Cervical cancer is second in cancer mortality among women worldwide. In developing countries, cervical cancer occurs 6 times as often as in developed countries due to the incomplete cervical screening efforts, and has become a serious threat to the health and life of young and middle-aged women. The cervix is a canal of approximately 10mm in thickness, divided into two layers, the mucosal epithelium and the basal layer. The development of cervical cancer is a slow process, and a series of precursor lesions are usually formed in the continuous development process of cervical dysplasia → carcinoma in situ (wrapped in cervical upper epidermis) → early stage invasive carcinoma (canceration to basal layer development) → invasive carcinoma. Generally, the cervical epithelial tissue takes 5 to 10 years or more from normal to abnormal growth to invasive cancer, and if the cancer is diagnosed and treated in the process of lesion development, the development of the cancer to invasive cancer can be prevented. However, at present, an intelligent gynecological disease diagnosis device which can be controlled by a patient cannot be provided, the privacy of the patient cannot be guaranteed, images of affected parts cannot be stored in the traditional mode of observing through an endoscope by naked eyes of doctors, and the affected parts cannot be contrasted and analyzed with a case database in a big data network cloud platform, so that the diagnosis accuracy is enhanced.

Disclosure of Invention

The invention aims to provide an intelligent diagnosis device based on a big data cloud platform, which is convenient for a patient to acquire image and/or video image information of vagina and cervix uteri and near-infrared diffuse reflection light examination by himself under the condition that the body safety is guaranteed, the information is transmitted to an artificial intelligence center based on the big data cloud platform through a controller, the artificial intelligence center can carry out automatic diagnosis according to the acquired information, and a diagnosis result and a basic treatment suggestion are given.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent diagnosis device based on a big data cloud platform comprises a diagnosis device body, wherein the diagnosis device body comprises a cylindrical diagnosis probe with a hollow interior, the diagnosis probe comprises a miniature camera device which is arranged in the diagnosis probe and used for collecting vagina and cervix images and a searchlight which is arranged at the end part of the diagnosis probe and used for providing a light source for the miniature camera device, the miniature camera device comprises a spherical camera and a first electromagnetic telescopic rod, the free end of the first electromagnetic telescopic rod is connected with the spherical camera, an infrared diffuse reflection light detection system used for near infrared diffuse reflection light detection is also arranged in the diagnosis probe, the infrared diffuse reflection light detection system comprises a light source structure used for emitting infrared rays and an infrared detector used for receiving infrared diffuse reflection light scattered by an infrared detected tissue body, the infrared light detector is electrically connected with the frequency domain heterodyne measurement module, and the frequency domain heterodyne measurement module is used for analyzing the frequency of the infrared diffuse reflection light and generating a corresponding detection result;

a limiting end is arranged on one side, away from the searchlight, of the diagnosis probe, a pressure sensor is mounted on the limiting end and used for detecting the pressure born by the limiting end, and the pressure sensor is electrically connected with the controller and used for transmitting a signal of the diagnosis probe penetrating into place to the controller;

the diagnosis probe is connected with a reversing rod, the reversing rod comprises an extension section fixedly connected with the diagnosis probe and an L-type structure connected with the extension section, the extension section is made of medical silicon rubber, so that the L-type structure is flexibly connected with the diagnosis probe, the L-type structure comprises a handheld rod parallel to the extension section, a display screen is arranged at the end of the handheld rod, a controller and a main power supply electrically connected with the controller are further arranged in the diagnosis probe, and the controller is electrically connected with the spherical camera, the first electromagnetic telescopic rod, the light source structure, the infrared light detector, the frequency domain heterodyne measurement module, the pressure sensor and the display screen;

the controller is electrically connected with the big data network cloud platform, the big data network cloud platform comprises a case database in which vagina and cervix diagnosis reports and treatment suggestions are stored, and the big data network cloud platform is used for performing comparative analysis on detection results and performing indexing in the case database to generate diagnosis reports and treatment suggestions matched with the detection results.

Preferably, the display screen is provided with a camera mode switch for controlling on/off of power supply of the miniature camera device, an infrared diffuse reflection detection switch for controlling on/off of power supply of the infrared diffuse reflection light detection system, and a rotary switch for controlling the rotary plate to rotate, and the display screen is further provided with an image display area for outputting images.

Preferably, the miniature camera device and the infrared diffuse reflection optical detection system are both fixedly arranged on the rotating plate, and the rotating plate is driven to rotate by the driving mechanism; the output end of the controller is electrically connected with the prompter and used for controlling the prompter to give out warning sound.

Preferably, the driving mechanism comprises a first motor arranged on the inner wall of the diagnosis probe far away from the searchlight, an output shaft of the first motor is connected with an inner gear and used for driving the inner gear to rotate, the inner gear is in inner meshing connection with an outer gear and used for driving the outer gear to rotate through the inner gear, and the outer gear is fixedly connected with the rotating plate so as to drive the rotating plate to rotate; and the external gear is fixedly arranged inside the diagnosis probe through a first bearing.

Preferably, the infrared diffuse reflection light detection system is fixedly connected with the rotating plate through a second electromagnetic telescopic rod; the first motor is electrically connected with a first power supply through a rotary switch, and the first power supply is fixedly installed inside the diagnosis probe.

Preferably, one side of the light source structure close to the infrared light detector is provided with a first isolation baffle, and one side of the infrared light detector close to the light source structure is provided with a second isolation baffle.

Preferably, the frequency domain heterodyne measurement module includes an amplifying circuit for amplifying an output signal of the infrared light detector, an output end of the amplifying circuit is connected to the filter circuit for filtering clutter, an output end of the filter circuit is connected to the digital-to-analog conversion circuit, and an output end of the digital-to-analog conversion circuit is connected to the controller.

Preferably, a near-infrared light source with the emission wavelength of 0.78-1.4 mu m is arranged in the light source structure.

Preferably, the controller is fixedly installed on the rotating plate, the controller is connected with the main power supply through an infrared detection switch, and the infrared detection switch is used for detecting whether a human body appears in the sensing range.

Preferably, the infrared detection switch is installed on the outer side wall of the diagnosis probe, and the infrared detection switch is connected in series between the controller and the control loop of the main power supply.

Compared with the prior art, the invention has the beneficial effects that:

the intelligent gynecological disease diagnosis device is characterized in that the diagnosis probe is connected with the reversing rod, the reversing rod is provided with the extension section fixedly connected with the diagnosis probe and the L-type structure connected with the extension section, and the L-type structure comprises the handheld rod parallel to the extension section, so that the design can be convenient for a patient to carry out a handheld detection process by himself, the privacy of the patient is ensured, the limit end is arranged on one side of the diagnosis probe far away from the searchlight, the pressure sensor is arranged on the limit end and used for detecting the pressure borne by the limit end, a signal that the diagnosis probe is deeply positioned in place can be transmitted to the controller through the pressure sensor, and the controller can control the prompter to give out warning sound to prompt that the patient is operated in place, so that danger is avoided, and the health of the patient is influenced.

The intelligent gynecological disease diagnosis device can collect the images of the vagina and the cervix uteri of a patient by arranging the miniature camera device for collecting the images of the vagina and the cervix uteri, and the controller is electrically connected with the display screen, so that the detected image can be displayed on the image display area of the display screen, and the patient can observe the detected image conveniently.

The intelligent gynecological disease diagnosis device is provided with an infrared diffuse reflection light detection system for near infrared diffuse reflection light examination, the infrared diffuse reflection light detection system comprises a light source structure for emitting infrared rays and an infrared light detector for receiving infrared diffuse reflection light scattered by an infrared detected tissue body, and the infrared light detector is electrically connected with the frequency domain heterodyne measurement module and used for analyzing and detecting the infrared diffuse reflection light and generating a detection result through the frequency domain heterodyne measurement module.

The controller is electrically connected with the big data network cloud platform and used for carrying out comparison and analysis on the detection result and generating a diagnosis report and a corresponding treatment suggestion; the big data network cloud platform comprises a vagina case database and a cervix case database, so that the detection result can be compared and analyzed with the case database in the big data network cloud platform, and the diagnosis accuracy is enhanced.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent diagnosis device based on a big data cloud platform according to the present invention;

FIG. 2 is a schematic structural diagram of an infrared diffuse reflection light detection system in an intelligent diagnosis device based on a big data cloud platform according to the present invention;

FIG. 3 is a schematic structural diagram of a driving mechanism in an intelligent diagnosis device based on a big data cloud platform according to the present invention;

fig. 4 is a schematic structural diagram of a display screen in the intelligent diagnosis device based on the big data cloud platform according to the present invention;

FIG. 5 is a schematic diagram of a circuit connection block diagram of an intelligent diagnosis device based on a big data cloud platform according to the present invention;

fig. 6 is a connection block diagram of a power supply circuit of a first motor in the intelligent diagnosis device based on the big data cloud platform.

The device comprises a diagnostic probe 1, a diagnostic probe 101, a searchlight 102, a spherical camera 103, a first electromagnetic telescopic rod 2, a light source structure 201, a first isolation baffle, an infrared light detector 3, an infrared light detector 301, a second isolation baffle, an electromagnetic telescopic rod 4, a second electromagnetic telescopic rod 5, a pressure sensor 501, an infrared detection switch 502, an extension section 503, an L type structure 504, a handheld rod 505, a display screen 505, an infrared diffuse reflection light detection system 6, a frequency domain heterodyne measurement module 601, a controller 7, a first power supply 8, a first motor 801, an internal gear 802, an internal gear 803, an external gear 804, a first bearing 805, a rotating plate 806, a prompter 807, an output shaft 9, a camera shooting mode switch 901, an infrared diffuse reflection detection switch 902, a rotating switch 903 and an image display area.

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, according to a first embodiment of the present invention, an intelligent diagnosis device based on a big data cloud platform comprises a diagnosis device body, the diagnosis device body comprises a cylindrical diagnosis probe 1 with a hollow interior, the diagnosis probe 1 comprises a miniature camera device arranged inside the diagnosis probe 1 and used for collecting vagina and cervix images and a searchlight 101 arranged at an end of the diagnosis probe 1 and used for providing a light source for the miniature camera device, the miniature camera device comprises a spherical camera 102 and a first electromagnetic telescopic rod 103, a free end of the first electromagnetic telescopic rod 103 is connected with the spherical camera 102, when the miniature camera device is in a non-working state, the first electromagnetic telescopic rod 103 is in a contracted state, the spherical camera is hidden inside the diagnosis probe 1 and can prevent the spherical camera from colliding with the spherical camera, when the miniature camera device is in a working state, the first electromagnetic telescopic rod 103 is in an extended state, the spherical camera is extended, the image information of the internal conditions of the vagina and cervix can be comprehensively transmitted to a collection controller 7, then a display screen 505 for viewing and observing the medical diagnosis probe, the diagnosis probe is provided with a monitor probe 505, the probe is connected with a monitor probe, the probe is connected with a medical probe, the monitor probe is connected with a monitor probe, the monitor probe is connected with the monitor probe.

As shown in fig. 2, an infrared diffuse reflection light detection system 6 for performing near-infrared diffuse reflection light inspection is further disposed inside the diagnostic probe 1, the infrared diffuse reflection light detection system 6 includes a light source structure 2 for emitting infrared rays and an infrared light detector 3 for receiving infrared diffuse reflection light scattered by an infrared detected tissue body, the infrared light detector 3 is electrically connected to a frequency domain heterodyne measurement module 601, and the frequency domain heterodyne measurement module 601 is configured to analyze a frequency of the infrared diffuse reflection light and generate a corresponding detection result.

Preferably, the display screen 505 is provided with an image pickup mode switch 9 for controlling on/off of power supply of the micro image pickup device, an infrared diffuse reflection detection switch 901 for controlling on/off of power supply of the infrared diffuse reflection light detection system 6, and a rotary switch 902 for controlling the rotary plate 805 to rotate, when a patient performs detection, the patient can control the rotation of the first motor 801 by turning the rotary switch 902, and the display screen 505 is further provided with an image display area 903 for outputting images.

Preferably, the miniature camera device and the infrared diffuse reflection light detection system 6 are both fixedly installed on a rotating plate 805, and the rotating plate 805 is driven to rotate by a driving mechanism; the output end of the controller 7 is electrically connected with the prompter 806 and is used for controlling the prompter 806 to give out warning sound to prompt that the patient is operated in place, so that danger is avoided and the body health of the patient is influenced.

Preferably, the driving mechanism includes a first motor 801 disposed on an inner wall of the diagnostic probe 1 on a side away from the searchlight 101, an output shaft 807 of the first motor 801 is connected to an internal gear 802 for driving the internal gear 802 to rotate, the internal gear 802 is internally meshed with an external gear 803 for driving the external gear 803 to rotate through the internal gear 802, the external gear 803 is fixedly connected to a rotating plate 805 for driving the rotating plate 805 to rotate, and the external gear 803 is fixedly mounted inside the diagnostic probe 1 through a first bearing 804. The rotating plate 805 is controlled to rotate by operating a rotary switch 902 arranged on the display screen 505, and the positions of the miniature camera device and the infrared diffuse reflection light detection system 6 are exchanged, so that the omnibearing acquisition of the image and the diagnosis information of the vagina and the cervix uteri is completed.

Preferably, the infrared diffuse reflection light detection system 6 is fixedly connected with the rotating plate 805 through the second electromagnetic telescopic rod 4; the first motor 801 is electrically connected to a first power supply 8 through a rotary switch 902, and the first power supply 8 is fixedly installed inside the diagnostic probe 1. Can control the stretching out and retracting of infrared diffuse reflection light detection system 6 through second electromagnetic telescopic rod 4, when infrared diffuse reflection light detection system 6 is in unoperated state, second electromagnetic telescopic rod 4 is in the state of retracting, infrared diffuse reflection light detection system 6 is located diagnostic probe 1 inside this moment, can protect infrared light detector 3 and light source structure 2, when infrared diffuse reflection light detection system 6 is in operating condition, second electromagnetic telescopic rod 4 is in the state of stretching out, infrared diffuse reflection light detection system 6 stretches out this moment, can carry out infrared diffuse reflection to the vagina and the inside condition of cervix and detect, and with this detection information transfer to controller 7, then look over and observe via display screen 505.

Preferably, a first isolation baffle 201 is disposed on a side of the light source structure 2 close to the infrared light detector 3, and a second isolation baffle 301 is disposed on a side of the infrared light detector 3 close to the light source structure 2. Therefore, the infrared ray emitted by the light source structure 2 can be prevented from influencing the infrared detector 3, and the arrangement of the second isolation baffle 301 can also converge the diffuse reflection infrared ray reflected by the inner walls of the vagina and the cervix so as to improve the measurement accuracy.

Preferably, the frequency domain heterodyne measurement module 601 includes an amplifying circuit for amplifying the signal output by the infrared light detector 3, an output end of the amplifying circuit is connected to the filter circuit for filtering the clutter, an output end of the filter circuit is connected to the digital-to-analog conversion circuit, and an output end of the digital-to-analog conversion circuit is connected to the controller 7.

Preferably, a near-infrared light source with the emission wavelength of 0.78-1.4 μm is arranged in the light source structure 2, and the infrared light source with the waveband mainly aims at generating infrared radiation within a certain range. The infrared light of the wave band can ensure the measuring accuracy and cannot damage human bodies.

Preferably, the controller 7 is fixedly installed on the rotating plate 805, the controller 7 is connected to a main power supply through an infrared detection switch 501, and the infrared detection switch 501 is used for detecting whether a human body is present in the sensing range.

Preferably, the infrared detection switch 501 is installed on the outer side wall of the diagnostic probe 1, and the infrared detection switch 501 is connected in series between the controller 7 and the control loop of the main power supply.

As shown in fig. 5 and fig. 6, the controller 7 is electrically connected to the spherical camera 102, the first electromagnetic telescopic rod 103, the light source structure 2, the infrared light detector 3, the frequency domain heterodyne measurement module 601, the pressure sensor 5, and the display screen 505; the controller 7 is electrically connected with a big data network cloud platform, the big data network cloud platform comprises a case database in which vagina and cervix diagnosis reports and treatment suggestions are stored, and the big data network cloud platform is used for performing comparative analysis on detection results and indexing in the case database to generate diagnosis reports and treatment suggestions matched with the detection results, so that the detection results and the case database in the big data network cloud platform can be subjected to comparative analysis, and the diagnosis accuracy is enhanced.

The big data network cloud platform can automatically screen and compare and analyze the pictures or videos, so that whether the detected part of the patient has a lesion or not, and what kind of lesion and lesion grade and the like are judged, and a detailed report can be formed. These diagnostic reports or data may be displayed on display screen 505 and both medical personnel and patients may view the data through display screen 505.

The second embodiment of the invention is different from the first embodiment in that the invention also provides intelligent terminal application software (such as intelligent mobile phone application software) matched with the gynecological disease intelligent diagnosis device, the software is in communication connection with the big data network cloud platform, and the image acquisition information, the processed diagnosis report and the treatment suggestion can be sent to the intelligent terminal application software by logging in the personal information of the patient, thereby greatly facilitating the use of the user.

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 (10)

1. An intelligent diagnosis device based on a big data cloud platform is characterized by comprising a diagnosis device body, wherein the diagnosis device body comprises a cylindrical diagnosis probe with a hollow interior, the diagnosis probe comprises a miniature camera device which is arranged in the diagnosis probe and used for collecting vagina and cervix images and a searchlight which is arranged at the end part of the diagnosis probe and used for providing a light source for the miniature camera device, the miniature camera device comprises a spherical camera and a first electromagnetic telescopic rod, the free end of the first electromagnetic telescopic rod is connected with the spherical camera, an infrared diffuse reflection light detection system used for performing near infrared diffuse reflection light inspection is also arranged in the diagnosis probe, the infrared diffuse reflection light detection system comprises a light source structure used for emitting infrared rays and an infrared detector used for receiving infrared diffuse reflection light scattered by an infrared detected tissue body, the infrared light detector is electrically connected with the frequency domain heterodyne measurement module, and the frequency domain heterodyne measurement module is used for analyzing the frequency of the infrared diffuse reflection light and generating a corresponding detection result;

a limiting end is arranged on one side, away from the searchlight, of the diagnosis probe, a pressure sensor is mounted on the limiting end and used for detecting the pressure born by the limiting end, and the pressure sensor is electrically connected with the controller and used for transmitting a signal of the diagnosis probe penetrating into place to the controller;

the diagnosis probe is connected with a reversing rod, the reversing rod comprises an extension section fixedly connected with the diagnosis probe and an L-type structure connected with the extension section, the extension section is made of medical silicon rubber, so that the L-type structure is flexibly connected with the diagnosis probe, the L-type structure comprises a handheld rod parallel to the extension section, a display screen is arranged at the end of the handheld rod, a controller and a main power supply electrically connected with the controller are further arranged in the diagnosis probe, and the controller is electrically connected with the spherical camera, the first electromagnetic telescopic rod, the light source structure, the infrared light detector, the frequency domain heterodyne measurement module, the pressure sensor and the display screen;

the controller is electrically connected with the big data network cloud platform, the big data network cloud platform comprises a case database in which vagina and cervix diagnosis reports and treatment suggestions are stored, and the big data network cloud platform is used for performing comparative analysis on detection results and performing indexing in the case database to generate diagnosis reports and treatment suggestions matched with the detection results.

2. The intelligent diagnosis device based on big data cloud platform according to claim 1, wherein: the display screen is provided with a camera shooting mode switch for controlling the on-off of the power supply of the miniature camera shooting device, an infrared diffuse reflection detection switch for controlling the on-off of the power supply of the infrared diffuse reflection light detection system and a rotary switch for controlling the rotary plate to rotate, and the display screen is also provided with an image display area for outputting images.

3. The intelligent diagnosis device based on big data cloud platform according to claim 2, wherein: the miniature camera device and the infrared diffuse reflection light detection system are both fixedly arranged on the rotating plate, and the rotating plate is driven to rotate by the driving mechanism; the output end of the controller is electrically connected with the prompter and used for controlling the prompter to give out warning sound.

4. The intelligent diagnosis device based on big data cloud platform of claim 3, wherein: the driving mechanism comprises a first motor arranged on the inner wall of one side, far away from the searchlight, in the diagnosis probe, an output shaft of the first motor is connected with an inner gear and used for driving the inner gear to rotate, the inner gear is in inner meshing connection with an outer gear and used for driving the outer gear to rotate through the inner gear, and the outer gear is fixedly connected with the rotating plate so as to drive the rotating plate to rotate; and the external gear is fixedly arranged inside the diagnosis probe through a first bearing.

5. The intelligent diagnosis device based on big data cloud platform of claim 3, wherein: the infrared diffuse reflection light detection system is fixedly connected with the rotating plate through a second electromagnetic telescopic rod; the first motor is electrically connected with a first power supply through a rotary switch, the first power supply is fixedly installed inside the diagnosis probe, and the output end of the controller is electrically connected with the prompter and used for controlling the prompter to give out warning sound.

6. The intelligent diagnosis device based on big data cloud platform according to claim 1, wherein: one side of the light source structure close to the infrared light detector is provided with a first isolation baffle, and one side of the infrared light detector close to the light source structure is provided with a second isolation baffle.

7. The intelligent diagnosis device based on big data cloud platform according to claim 1, wherein: the frequency domain heterodyne measurement module comprises an amplifying circuit for amplifying an output signal of the infrared detector, the output end of the amplifying circuit is connected with a filter circuit for filtering clutter, the output end of the filter circuit is connected with a digital-to-analog conversion circuit, and the output end of the digital-to-analog conversion circuit is connected with a controller.

8. The intelligent diagnosis device based on big data cloud platform according to claim 1, wherein: the light source structure is internally provided with a near-infrared light source with the emission wavelength of 0.78-1.4 mu m.

9. The intelligent diagnosis device based on big data cloud platform according to claim 1, wherein: the controller is fixedly installed on the rotating plate and connected with the main power supply through the infrared detection switch, and the infrared detection switch is used for detecting whether a human body appears in an induction range.

10. The intelligent diagnosis device based on big data cloud platform according to claim 9, wherein: the infrared detection switch is installed on the outer side wall of the diagnosis probe and is connected in series between the controller and the control loop of the main power supply.

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