CN111631675A - Rhinitis detection device and detection analysis method thereof - Google Patents

Abstract

The invention discloses a rhinitis detection device and a detection analysis method thereof, and the rhinitis detection device comprises a fixed plate, wherein two probing type detection mechanisms are arranged on the fixed plate side by side, each probing type detection mechanism comprises a shell fixed on the fixed plate, a transparent glass cover is connected to the top of the shell, a micro camera is arranged on the inner side of the transparent glass cover and is installed on a fixed seat in the shell, LED chips are respectively installed on the fixed seats on the left side and the right side of the micro camera, a data line is arranged at the left end of the fixed plate, a data plug is installed at the upper end of the data line, the data plug is inserted into a USB interface of mobile equipment and is in communication connection with an APP installed in the mobile equipment, and the APP comprises a storage module, a video playing module. According to the invention, the LED chip for supplementing light is covered by the plate glass cover, and the height of the LED chip is lower than that of the miniature camera, so that when the LED is irradiated by light, the influence of the light on the shooting of the miniature camera can be avoided, the LED chip is protected, and the service life of the LED chip is longer.

Description

Rhinitis detection device and detection analysis method thereof

Technical Field

The invention relates to the technical field of nasal cavity examination equipment, in particular to a rhinitis detection device and a detection analysis method thereof.

Background

In the medical rhinoscope in the prior art, the image of the nose is amplified by using the magnifier arranged on the rhinoscope so as to facilitate the examination of a doctor, the doctor needs to adjust the visibility of the magnifier during the examination, and then the doctor observes the condition inside the nose through eyes, however, medical workers need to lower the head or lean the neck to see when observing the nose, so that the condition and the structure inside the nose cannot be clearly seen, and errors can be brought to the examination result; and because the angle problem of rhinoscope in patient's nose also can give the view that the eyes caught and bring the influence, can cause like this to have very big error in the testing process, be unfavorable for medical staff's detection efficiency, also brought very big influence for patient's health recovery, current nasal cavity inspection all needs go to the hospital to go on simultaneously, and the check-up time is long, can't satisfy daily life's self-checking.

Disclosure of Invention

The invention aims to solve the technical problem that the existing nasal cavity examination is inconvenient, and the existing nasal cavity examination can be known only by hospital registration examination, so that the daily self-examination cannot be met.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides a rhinitis detection device, which comprises a fixing plate and i, be provided with 1 formula inspection mechanism of visiting side by side on the fixed plate, visit formula inspection mechanism including being fixed in the casing on the fixed plate, the top position is connected with the clear glass cover on the casing, and clear glass cover inboard is equipped with miniature camera head, and miniature camera head installs on the fixing base in the casing, installs the LED chip on the fixing base of the miniature camera head left and right sides respectively, the left end is equipped with the data line on the fixed plate, and data plug is installed to the data line upper end, and the data plug inserts the USB interface of mobile device and links to each other with the APP communication of installation in the mobile device, and APP includes storage module, video playback module and inquiry module and constitutes, and the inquiry module utilizes network communication technology module and the GPRS communication technology module and the diagnosis platform looks communication connection of mobile.

The inquiry module is in communication connection with a medical platform, and the medical platform is an existing network portal of each hospital and various inquiry platform websites on the internet.

The bottom of the shell is provided with a main line connected with the miniature camera, the main line is simultaneously provided with an auxiliary line, an electric branch line connected with the auxiliary line penetrates through a threading hole formed in the fixing seat to be connected with the LED chip, and the main line is connected with the data line.

And a plate glass cover is arranged on the outer side of the LED chip and protects the LED chip.

The diagnosis platform takes a central processing unit as a processing work core module, and is provided with a wireless communication module, an image reading module, an important frame extraction module, an image processing module and a comparison analysis module which are connected with the central processing unit, wherein the comparison analysis module is simultaneously connected with a medical sample library.

The central processing unit is also connected with a medicine recommending module, and the medicine recommending module is connected with the tablet catalogue library at the same time.

A detection analysis method of a rhinitis detection device comprises the following steps:

step 1: the micro camera shoots videos in the nasal cavity, the videos are transmitted to the mobile equipment through a data line, and shot pictures are displayed in the APP in real time;

step 2: uploading the shot video in the nasal cavity to a diagnosis platform by utilizing the existing network of the mobile equipment and the GPRS communication technology;

and step 3: the diagnostic platform receives the read video, extracts important frames in the video according to the existing video extraction algorithm and forms a plurality of static images;

and 4, step 4: analyzing the static image, identifying the focus part in the image, comparing the focus part with sample data in a medical sample library, analyzing and judging the cause of the focus part, actively sharing video resources to seek help from each existing hospital and a network medical platform when the judgment is unsuccessful and the analysis result is uncertain, and synchronizing help-seeking feedback information to the APP;

and 5: and sending the judged result to the APP for displaying, and recommending the corresponding treatment medicine name.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the miniature camera is inserted into the nasal cavity to shoot pictures in the nasal cavity and is uploaded to the diagnosis platform for analysis and diagnosis, so that abnormal problems in the nasal cavity are intelligently identified, and applicable medicines are intelligently recommended according to the problem conditions, so that the nasal cavity examination is not limited to the nasal cavity examination in hospitals, and the self-checking can be carried out in daily life of individuals at any time and any place.

2. According to the invention, the miniature camera is used for shooting pictures in the nasal cavity, and the LED light is used for lighting, so that the conditions in the nasal cavity can be well seen.

3. In the invention, when the diagnostic platform can not effectively identify and judge the shot images in the nasal cavity, the images can be sent to the existing hospitals and network medical platforms to carry out on-line expert inquiry, the inquiry and diagnosis are flexible, and the specific focus images are compared with the oral disease states, so that the diagnosis accuracy can be ensured.

4. According to the invention, the LED chip for supplementing light is covered by the plate glass cover, and the height of the LED chip is lower than that of the miniature camera, so that when the LED is irradiated by light, the influence of the light on the shooting of the miniature camera can be avoided, the LED chip is protected, and the service life of the LED chip is longer.

Drawings

FIG. 1 is a side view of the present invention;

FIG. 2 is a schematic diagram of the structure of the probing type inspection mechanism of the present invention;

FIG. 3 is a system modular block diagram of an APP in the present invention;

FIG. 4 is a system block diagram of the diagnostic platform of the present invention.

The labels in the figure are: 1. a fixing plate; 2. a probing inspection mechanism; 3. a data line; 4. a data plug; 5. a housing; 6. a fixed seat; 7. an LED chip; 8. a transparent glass cover; 9. a miniature camera; 10. a sheet glass cover; 11. threading holes; 12. connecting a branch line; 13. a secondary line; 14. a main line; 15. APP; 16. a medical platform; 17. a diagnostic platform; 150. a storage module; 151. a video playing module; 152. an interrogation module; 170. a central processing unit; 171. a wireless communication module; 172. an image reading module 172, an important frame extracting module 173, and a picture processing module; 175. a comparison analysis module; 176. a medical sample repository; 177. a tablet catalog library; 178. a medication recommendation module.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

In a first embodiment, please refer to fig. 1 to 4, a rhinitis detecting apparatus includes a fixing plate 1, two probing inspection mechanisms 2 are arranged side by side on the fixing plate 1, each probing inspection mechanism 2 includes a housing 5 fixed on the fixing plate 1, a transparent glass cover 8 is connected to a top portion of the housing 5, a micro camera 9 is arranged inside the transparent glass cover 8, the micro camera 9 is mounted on a fixing seat 6 in the housing 5, LED chips 7 are respectively mounted on the fixing seats 6 on left and right sides of the micro camera 9, a main line 14 connected to the micro camera 9 is arranged at a bottom portion of the housing 5, a sub line 13 is simultaneously arranged on the main line 14, and an electric branch line 12 connected to the sub line 13 passes through a threading hole 11 formed in the fixing seat 6 to be connected to the LED chip 7.

In the present invention, the probing mechanism 2 may be used separately to detect one nostril, so that one nostril can be probed individually. Meanwhile, when the mechanism is used for detecting a single nostril, the mechanism can analyze data in the single nostril, further obtain data sources corresponding to two nostrils of the nose respectively, and generate different data analysis and detection treatment modes for different nostrils.

The main line 14 is connected with a data line 3 arranged at the left end of the fixed plate 1, a data plug 4 is installed at the upper end of the data line 3, the data plug 4 is inserted into a USB interface of the mobile device to be in communication connection with an APP15 installed in the mobile device, the APP15 comprises a storage module 150, a video playing module 151 and an inquiry module 152, and the inquiry module 152 is in communication connection with the diagnosis platform 17 and the medical platform 16 respectively by using a network communication technology module and a GPRS communication technology module of the mobile device;

the diagnosis platform 17 uses the central processing unit 170 as a processing core module, and is provided with a wireless communication module 171, an image reading module 172, an important frame extraction module 173, a picture processing module 174 and a comparison analysis module 175 connected with the central processing unit, and the comparison analysis module 175 is simultaneously connected with a medical sample library 176.

The invention provides a detection and analysis method of a rhinitis detection device, which comprises the following steps:

step 1: the micro camera shoots videos in the nasal cavity, the videos are transmitted to the mobile equipment through a data line, and shot pictures are displayed in the APP in real time;

step 2: uploading the shot video in the nasal cavity to a diagnosis platform by utilizing the existing network of the mobile equipment and the GPRS communication technology;

and step 3: the diagnostic platform receives the read video, extracts important frames in the video according to the existing video extraction algorithm and forms a plurality of static images;

and 4, step 4: analyzing the static image, identifying the focus part in the image, comparing the focus part with sample data in a medical sample library, analyzing and judging the cause of the focus part, actively sharing video resources to seek help from each existing hospital and a network medical platform when the judgment is unsuccessful and the analysis result is uncertain, and synchronizing help-seeking feedback information to the APP;

and 5: and sending the judged result to the APP for displaying, and recommending the corresponding treatment medicine name.

In the second embodiment, please refer to fig. 1 to 4, a rhinitis detecting apparatus includes a fixing plate 1, two probing inspection mechanisms 2 are arranged side by side on the fixing plate 1, each probing inspection mechanism 2 includes a housing 5 fixed on the fixing plate 1, a transparent glass cover 8 is connected to a top portion of the housing 5, a micro camera 9 is arranged inside the transparent glass cover 8, the micro camera 9 is mounted on a fixing seat 6 in the housing 5, LED chips 7 are respectively mounted on the fixing seats 6 on the left and right sides of the micro camera 9, a main line 14 connected to the micro camera 9 is arranged at a bottom portion of the housing 5, a sub line 13 is simultaneously arranged on the main line 14, a power connection branch line 12 connected to the sub line 13 passes through a threading hole 11 arranged on the fixing seat 6 to be connected to the LED chip 7, and a flat glass cover 10 is arranged outside the LED chip 7;

the main line 14 is connected with a data line 3 arranged at the left end of the fixed plate 1, a data plug 4 is installed at the upper end of the data line 3, the data plug 4 is inserted into a USB interface of the mobile device to be in communication connection with an APP15 installed in the mobile device, the APP15 comprises a storage module 150, a video playing module 151 and an inquiry module 152, and the inquiry module 152 is in communication connection with the diagnosis platform 17 and the medical platform 16 respectively by using a network communication technology module and a GPRS communication technology module of the mobile device;

the diagnosis platform 17 uses the central processing unit 170 as a processing work core module, and is provided with a wireless communication module 171, an image reading module 172, an important frame extraction module 173, a picture processing module 174, a comparison analysis module 175 and a drug recommendation module 178 which are connected with the central processing unit, wherein the comparison analysis module 175 is simultaneously connected with a medical sample library 176, and the drug recommendation module 178 is simultaneously connected with a tablet catalog library 177.

A detection analysis method of a rhinitis detection device comprises the following steps:

step 1: the micro camera shoots videos in the nasal cavity, the videos are transmitted to the mobile equipment through a data line, and shot pictures are displayed in the APP in real time;

step 2: uploading the shot video in the nasal cavity to a diagnosis platform by utilizing the existing network of the mobile equipment and the GPRS communication technology;

and step 3: the diagnostic platform receives the read video, extracts important frames in the video according to the existing video extraction algorithm and forms a plurality of static images;

and 4, step 4: analyzing the static image, identifying the focus part in the image, comparing the focus part with sample data in a medical sample library, analyzing and judging the cause of the focus part, actively sharing video resources to seek help from each existing hospital and a network medical platform when the judgment is unsuccessful and the analysis result is uncertain, and synchronizing help-seeking feedback information to the APP;

and 5: and sending the judged result to the APP for displaying, and recommending the corresponding treatment medicine name.

The working principle is as follows: the invention provides a rhinitis detection device and a detection and analysis method thereof, the structure is skillfully arranged, when in use, a data plug 4 is firstly plugged on a USB interface of mobile equipment, an APP on the mobile equipment is connected, then a fixing plate 1 is held by hands, a probing type inspection mechanism 2 is inserted into a nasal cavity, a micro camera 9 works to shoot images in the nasal cavity, an LED chip 7 supplements light for shooting, the shot video is transmitted to the APP for storage and playing in real time through a data line, the network carried by the mobile equipment and the GPRS technology are utilized to transmit the video to a diagnosis platform 17, the diagnosis platform 17 extracts clear video frames with obvious focus images in the video to obtain static images, then the static images are compared with samples in a medical sample library 176 to analyze and judge the pathology, corresponding therapeutic drugs are inquired from a tablet catalog library 177 and are issued to the APP for display, not only facilitates the daily nasal cavity examination of individuals, but also is more convenient for the treatment of medicine purchase.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, and the scope of protection is still within the scope of the invention.

Claims (7)

1. The rhinitis detection device comprises a fixing plate (1) and is characterized in that at least 1 probing type detection mechanism (2) is arranged on the fixing plate (1) side by side, the probing type detection mechanism (2) comprises a shell (5) fixed on the fixing plate (1), the top of the shell (5) is connected with a transparent glass cover (8), the inner side of the transparent glass cover (8) is provided with a micro camera (9), the micro camera (9) is arranged on a fixing seat (6) in the shell (5), LED chips (7) are respectively arranged on the fixing seats (6) at the left side and the right side of the micro camera (9), the left end of the fixing plate (1) is provided with a data line (3), the upper end of the data line (3) is provided with a data plug (4), the data plug (4) is inserted into a USB interface of a mobile device and is communicated with an APP (15) installed in the mobile device, the APP (15) comprises a storage module (150), a video playing module (151) and an inquiry module (152), wherein the inquiry module (152) is in communication connection with the diagnosis platform (17) by utilizing a network communication technology module and a GPRS communication technology module of the mobile device.

2. A rhinitis detection device according to claim 1, wherein the interrogation module (152) is also communicatively connected to the medical platform (16).

3. The rhinitis detecting device according to claim 1, wherein a main line (14) connected with the micro-camera (9) is arranged at the bottom of the housing (5), a secondary line (13) is arranged on the main line (14), an electric branch line (12) connected with the secondary line (13) passes through a threading hole (11) arranged on the fixing seat (6) to be connected with the LED chip (7), and the main line (14) is connected with the data line (3).

4. A rhinitis detecting device according to claim 3, wherein a flat glass cover (10) is provided outside the LED chip (7).

5. The rhinitis detecting device according to any one of claims 1 to 4, wherein the diagnosis platform (17) uses a central processing unit (170) as a processing core module, and is provided with a wireless communication module (171), an image reading module (172), a significant frame extracting module (173), an image processing module (174) and a comparison and analysis module (175) connected with the central processing unit, and the comparison and analysis module (175) is simultaneously connected with a medical sample library (176).

6. A rhinitis detection device according to claim 5, wherein the central processing unit (170) is further connected with a drug recommendation module (178), and the drug recommendation module (178) is connected with the tablet catalog (177) at the same time.

7. A detection analysis method of a rhinitis detection device is characterized by comprising the following steps:

step 1: the micro camera shoots videos in the nasal cavity, the videos are transmitted to the mobile equipment through a data line, and shot pictures are displayed in the APP in real time;

step 2: uploading the shot video in the nasal cavity to a diagnosis platform by utilizing the existing network of the mobile equipment and the GPRS communication technology;

and step 3: the diagnostic platform receives the read video, extracts important frames in the video according to the existing video extraction algorithm and forms a plurality of static images;

and 4, step 4: analyzing the static image, identifying the focus part in the image, comparing the focus part with sample data in a medical sample library, analyzing and judging the cause of the focus part, actively sharing video resources to seek help from each existing hospital and a network medical platform when the judgment is unsuccessful and the analysis result is uncertain, and synchronizing help-seeking feedback information to the APP;

and 5: and sending the judged result to the APP for displaying, and recommending the corresponding treatment medicine name.

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