CN114209967A - Aerosol spray device and method of use thereof - Google Patents

Abstract

The invention discloses an aerosol sprayer and a using method thereof, and the structure of the aerosol sprayer comprises a body, a medicine storage tank, a sprayer, a switch, an indicator light, a telescopic rod, a medicine feeding hole, a chip box, a delivery pump, a battery and a distance sensor, wherein the sprayer comprises a nozzle, a camera, a lighting lamp and the distance sensor, and the chip box comprises a control module, an analog-digital conversion module, a WiFi module, a timing module, a storage module and a graphic processing module. The invention can be used for conveniently positioning the wound in the oral cavity and assisting medical personnel in diagnosing. Meanwhile, the accurate control of the medicine spraying range and the medicine dosage can be realized.

Description

Aerosol spray device and method of use thereof

Technical Field

The invention relates to the field of oral care, in particular to an intelligent aerosol sprayer and a using method thereof

Background

The oral health has very important influence on the human health, and especially the wound surface generated in the oral cavity due to various reasons seriously influences the absorption of the human body to nutrient substances. Meanwhile, oral diseases also affect the psychological health of people, and only if the oral cavity keeps healthy, one person can be guaranteed to fully express own thoughts and communicate with other people pleasantly. With increasing income and consumption levels, more and more people are becoming aware of the importance of oral health, especially for the treatment and care of diseases in the oral cavity. At present, the treatment of the wound surface inside the oral cavity generally adopts the mode of using the medicine in the oral cavity in a fogging way. However, the currently used aerosol sprayer is usually a manual push type sprayer. Because the wound surface position can not be observed in real time, the medicine-applying position is difficult to be accurately positioned by using the medicine sprayer. Meanwhile, the dosage is difficult to control accurately, and the excessive dosage often causes medicine waste or other side effects. And the problem of untimely and incomplete treatment and the like can be caused by too little dosage. Users often feel alone during use and are not guided by professional medical staff, which can lead to delayed treatment or overdose.

Disclosure of Invention

In order to solve the technical problem, the invention provides an aerosol sprayer which structurally comprises a body, a medicine storage tank and a sprayer, wherein the body is detachably connected with the medicine storage tank, a medicine feeding hole is formed in the side face of the medicine storage tank, the aerosol sprayer is characterized in that a telescopic rod is arranged between the sprayer and the body, the sprayer is connected with the body through the telescopic rod, the sprayer is provided with a nozzle, a camera, an illuminating lamp and a distance sensor, the nozzle is used for spraying liquid medicine at a fixed pressure and angle, the camera is used for collecting images inside an oral cavity, the illuminating lamp is used for improving the brightness inside the oral cavity and improving the image collection quality of the camera, the distance sensor is used for collecting distance information between the nozzle and a wound surface inside the oral cavity, a delivery pump, a battery and a chip box are arranged on the inner side of the body, and the battery supplies power to the delivery pump and the chip box, the outer side of the body is provided with a switch and an indicator light, the switch can realize the starting of the aerosol sprayer when the switch is pressed for a long time, the battery starts to supply power, the switch is clicked after the aerosol sprayer is started, the starting and the closing of the delivery pump can be realized, when the aerosol sprayer is in an open state, the switch is pressed for a long time, the aerosol sprayer is closed, the battery stops supplying power, the indicator light is turned on when the battery starts to supply power, and is turned off when the battery stops supplying power, the delivery pump is provided with a liquid inlet pipe and a liquid outlet pipe, the liquid inlet pipe extends downwards to the bottom of the medicine storage tank, the liquid outlet pipe is connected with the nozzle, a control module, an analog-to-digital conversion module, a WiFi module, a timing module, a storage module and a graphic processing module are arranged in the chip box, the graphic processing module is used for receiving images inside the oral cavity collected by the camera and processing the images to obtain clear images and sending the clear images to the control module, the analog-digital conversion module is used for receiving information collected by the distance sensor, converting the information into a digital signal which can be identified and operated by the control module and sending the digital signal to the control module, the control module analyzes the signal after receiving the signal sent by the graphic processing module and the digital-analog conversion module to obtain a wound surface image with an accurate area and sends the information to the storage module, the control module is connected with the mobile terminal through the WiFi module after the aerosol sprayer is started, meanwhile, the wound surface image is sent to the mobile terminal through the WiFi module and displayed to a user and a treatment team through the mobile terminal, the treatment team gives a dosage suggestion according to the wound surface condition and sends the dosage suggestion to the control module through the mobile terminal, after the control module receives the dosage information, the dosage information is calculated according to the flow of the delivery pump, and the dosage information is sent to the timing module, and meanwhile, the control module calculates the diameter of the minimum circumscribed circle of the wound surface according to the wound surface image, the diameter is used as spraying diameter information to control the telescopic rod, the distance between the nozzle and the wound surface is adjusted, the switch is clicked after the distance is adjusted, the delivery pump is started, the drug is delivered according to the calculated drug delivery duration, the drug is delivered through the nozzle according to the set spraying diameter, and when the drug delivery duration is reached, the delivery pump is stopped, and the drug delivery of the wound surface is completed. The control module sends the medication time, the wound surface image and the medication amount information to the storage module for storage.

Furthermore, the included angle between the telescopic rod and the central axis of the body ranges from 90 degrees to 180 degrees.

Further, the indicator light is a YLB5611BH type indicator light, the analog-to-digital conversion module is an STM32F103C8T6 type analog-to-digital conversion chip, the control module is an HT66F016 chip, the timing module is an LMC555CMX type timing chip, the WiFi module is an ESP8266 type WiFi module, the distance sensor is an MH-B type infrared distance sensor, and the image processing module is an STC15W408AS type image processing module.

Furthermore, the control module and the mobile terminal can be connected through a Bluetooth module.

Further, the mobile terminal is a mobile phone or a tablet computer.

Further, the storage module is a TF storage card.

Further, the light is the LED light, and the quantity is 3, and evenly distributed is at shower nozzle edge.

The method for applying the aerosol sprayer comprises the following steps:

(1) the long-time pressing of the switch starts the aerosol sprayer, and the control module is connected with the mobile terminal;

(2) judging whether the user is used for the first time, if the user file needs to be established for the first time, jumping to the step (3), if the user file is established, inputting a user name at the mobile terminal, calling the information stored by the user, and then jumping to the step (4);

(3) inputting a user name on a mobile terminal and establishing a user file;

(4) the method comprises the following steps that a user places a sprayer in the oral cavity, a camera collects images inside the oral cavity and displays the images to the user through a mobile terminal, and the user aims the camera at the wound surface in the oral cavity according to pictures displayed by the mobile terminal;

(5) the camera collects images of the wound surface in the oral cavity, clear and accurate-area images of the wound surface are obtained through the image processing module and are transmitted to the control module, and the control module sends the images to the storage module for storage;

(6) the control module sends all stored wound images of the user to a professional treatment team through the mobile terminal, and the professional treatment team makes a medication suggestion;

(7) the treatment team judges whether the user needs to continue to take the medicine, if the user needs to continue to take the medicine, the treatment team jumps to the step (8), if the user does not need to continue to take the medicine, the treatment team presses the switch of the aerosol medicine sprayer for a long time, the aerosol medicine sprayer is closed, and the whole medicine taking process is finished;

(8) the treatment team gives the dosage and transmits the dosage information back to the control module, and the control module calculates the administration time according to the dosage and the flow of the delivery pump;

(9) the control module determines a spraying range by calculating the diameter of the minimum circumscribed circle of the shape of the wound surface image, and controls the telescopic rod according to the spraying range to adjust the position of the nozzle;

(10) clicking a switch of the atomizing sprayer, and spraying the medicine to the wound surface by the atomizing sprayer according to the determined spraying range and the determined medicine feeding duration;

(11) when the administration duration meets the requirement, the delivery pump automatically stops to finish the administration process;

(12) the control module records the wound surface image, the medication time and the medication amount information and stores the wound surface image, the medication time and the medication amount information to the storage module;

(13) and (3) pressing a switch of the aerial fog pesticide sprayer for a long time, closing the aerial fog pesticide sprayer, completing the medicine taking process, waiting for next medicine taking, and skipping to the step (1) until the treatment team judges that the medicine taking does not need to be continued.

The aerosol sprayer and the using method thereof have the beneficial effects that:

(1) the invention can acquire real-time oral images through the camera and display the images to users and treatment teams through the mobile terminal, thereby facilitating the positioning of the wound in the oral cavity by the users, assisting medical personnel in diagnosis and giving real-time medication suggestions.

(2) The invention adjusts the distance between the nozzle and the wound surface through the distance sensor and the telescopic rod, thereby realizing the control of the spraying area, and combining the graph analysis of the wound surface in the oral cavity, the invention can realize the accurate control of the medicine spraying range.

(3) Because the pressure and the flow of the medicine sprayed by the nozzle are constant, discomfort cannot be caused in the medicine application process, and the accurate control of the dosage can be realized by matching different administration durations.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention.

FIG. 1 is a front view of an aerosol spray applicator of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a schematic view of the telescoping rod in a fully retracted state;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a schematic structural view of a showerhead;

FIG. 6 is a schematic view of an included angle between the retractable rod and a central axis of the body;

FIG. 7 is a schematic diagram showing the relationship between the distance from the nozzle to the wound surface and the spraying range;

FIG. 8 is a block diagram of the structure within the chip box;

FIG. 9 is a flow chart of the use of the misting sprayer of the present invention.

In the figure: 1. the body, 2, medicine storage tank, 3, the shower nozzle, 301, the nozzle, 302, the camera, 303, the light, 4, the switch, 5, the pilot lamp, 6, the telescopic link, 7, add the medicine hole, 8, the chip box, 801, control module, 802, analog-to-digital conversion module, 803, the bluetooth module, 804, the wiFi module, 805, mobile terminal, 806, the timing module, 807, the storage module, 808, the figure processing module, 9, the delivery pump, 901, the feed liquor pipe, 902, the drain pipe, 10, the battery, 11, distance sensor.

Detailed Description

For the purpose of enhancing an understanding of the present invention, the present invention will be described in further detail below with reference to examples and the accompanying drawings.

As shown in fig. 1 to 8, the structure of the aerosol medicine sprayer in this embodiment includes a body 1, a medicine storage tank 2 and a spray head 3, the body 1 is detachably connected to the medicine storage tank 2, a medicine feeding hole 7 is formed in a side surface of the medicine storage tank 2, an expansion link 6 is arranged between the spray head 3 and the body 1, the spray head 3 is connected to the body 1 through the expansion link 6, the spray head 3 is provided with a nozzle 301, a camera 302, a lighting lamp 303 and a distance sensor 11, the nozzle 301 is used for spraying liquid medicine at a fixed pressure and angle, the camera 302 is used for collecting images inside an oral cavity, the lighting lamp 303 is used for improving brightness inside the oral cavity and improving image collection quality of the camera, the distance sensor 11 is used for collecting distance information between the nozzle 301 and a wound surface inside the oral cavity, a delivery pump 9, a battery 10 and a chip box 8 are arranged inside the body 1, the battery 10 supplies power to each component in the delivery pump 9 and the chip box 8, a switch 4 and an indicator lamp 5 are arranged on the outer side of the body 1, the switch 4 can realize the starting of the aerosol sprayer when the switch 4 is pressed for a long time, the battery 10 starts to supply power, the switch 4 is clicked after the aerosol sprayer is started, the delivery pump 9 can be started and stopped, when the aerosol sprayer is in the starting state, the aerosol sprayer can be closed when the switch 4 is pressed for a long time, the battery 10 stops supplying power, the indicator lamp 5 is turned on when the battery 10 starts to supply power, the battery 10 stops supplying power, the delivery pump 9 is provided with a liquid inlet pipe 901 and a liquid outlet pipe 902, the liquid inlet pipe 901 extends downwards to the bottom of the medicine storage tank 2, the liquid outlet pipe 902 is connected with the nozzle 301, a control module 801, an analog-to-digital conversion module 802, a WiFi module 804, a timing module 806, a storage module 807 and a graphic processing module 808 are arranged in the chip box 8, the image processing module 808 is configured to receive an image of an interior of an oral cavity acquired by the camera 302, process the image to obtain a clear image, send the clear image to the control module 801, the analog-to-digital conversion module 802 is configured to receive information acquired by the distance sensor 11, convert the information into a digital signal that can be identified and operated by the control module 801, send the digital signal to the control module 801, analyze the signal received by the control module 801 and the signal sent by the image processing module 808 and the digital-to-analog conversion module 802 to obtain a wound surface image with an accurate area, send the information to the storage module 807, after the aerosol sprayer is turned on, the control module 801 is connected 805 with the mobile terminal through the WiFi module 804, simultaneously send the wound surface image to the mobile terminal 805 through the WiFi module 804, show the wound surface image to a user and a treatment team through the mobile terminal 805, after the treatment team gives a dosage suggestion according to the wound surface condition, the medicine is sent to a control module 801 through a mobile terminal 805, after the control module 801 receives the medicine consumption information, the medicine administration time length is calculated according to the flow of a delivery pump 9, the medicine administration time length information is sent to a timing module 806, meanwhile, the control module 801 calculates the diameter of the minimum circumscribed circle of the wound according to the wound image and controls a telescopic rod 6 by taking the diameter as the spraying diameter information, the distance between a nozzle 301 and the wound is adjusted, a switch 4 is clicked after the distance is adjusted, the delivery pump 9 is started and the medicine is administered according to the calculated medicine administration time length, the medicine is administered through the nozzle 301 with the set spraying diameter, and when the medicine administration time length is reached, the delivery pump 9 is stopped, and the medicine administration of the wound is completed. The control module 801 sends the medication time, the wound surface image and the medication amount information to the storage module 807 for storage.

The included angle between the telescopic rod 6 and the central axis of the body 1 is 90-180 degrees.

The indicator light 5 is a YLB5611BH type indicator light, the analog-to-digital conversion module 802 is an STM32F103C8T6 type analog-to-digital conversion chip, the control module 801 is an HT66F016 chip, the timing module 806 is an LMC555CMX type timing chip, the WiFi module 804 is an ESP8266 type WiFi module, the distance sensor 11 is an MH-B type infrared distance sensor, and the graphic processing module 808 is an STC15W408AS type graphic processing module.

The control module 801 and the mobile terminal 805 can also be connected through a bluetooth module 803.

The mobile terminal 805 is a mobile phone or a tablet computer.

The storage module 807 is a TF storage card.

The light 303 is the LED light, and the quantity is 3, and evenly distributed is at 3 edges of shower nozzle.

The method for applying the aerosol sprayer comprises the following steps:

(1) the switch 4 is pressed for a long time, the aerosol sprayer is started, and the control module 801 is connected with the mobile terminal 805;

(2) judging whether the user is used for the first time, if the user file needs to be established for the first time, jumping to the step (3), if the user file is established, inputting a user name at the mobile terminal 805, calling the information stored by the user, and then jumping to the step (4);

(3) inputting a user name on the mobile terminal 805, and establishing a user profile;

(4) the user places the spray head 3 in the oral cavity, the camera 302 collects an image of the interior of the oral cavity and displays the image to the user through the mobile terminal 805, and the user aims the camera 302 at the wound surface in the oral cavity according to the picture displayed by the mobile terminal 805;

(5) the camera 302 collects images of a wound surface in the oral cavity, clear and accurate-area images of the wound surface are obtained through the image processing module 808 and are transmitted to the control module 801, and the control module 801 transmits the images to the storage module 807 for storage;

(6) the control module 801 sends all stored wound images of the user to a professional treatment team through the mobile terminal 805, and the professional treatment team makes a medication suggestion;

(7) the treatment team judges whether the user needs to continue to take the medicine, if the user needs to continue to take the medicine, the treatment team jumps to the step (8), if the user does not need to continue to take the medicine, the treatment team presses the switch 4 of the aerosol medicine sprayer for a long time, the aerosol medicine sprayer is closed, and the whole medicine taking process is finished;

(8) the treatment team gives the dosage and transmits the dosage information back to the control module 801, and the control module 801 calculates the administration time according to the dosage and the flow of the delivery pump 9;

(9) the control module 801 determines a spraying range by calculating the diameter of the minimum circumscribed circle of the shape of the wound surface image, controls the telescopic rod 6 according to the spraying range, and adjusts the position of the nozzle 301;

(10) clicking a switch 4 of the atomizing sprayer, and spraying the medicine to the wound surface by the atomizing sprayer in the determined spraying range and the determined administration time;

(11) when the administration duration reaches the requirement, the delivery pump 9 automatically stops to complete the administration process;

(12) the control module 801 records the medication time and the medication amount information, and stores the information in the storage module 807;

(13) and (3) pressing the switch 4 of the aerial fog medicine sprayer for a long time, closing the aerial fog medicine sprayer, completing the medicine taking process, waiting for the next medicine taking, and skipping to the step (1) until the treatment team judges that the medicine taking does not need to be continued.

The above description is only exemplary of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An aerosol sprayer structurally comprises a body, a medicine storage tank and a spray head, wherein the body is detachably connected with the medicine storage tank, a medicine feeding hole is formed in the side face of the medicine storage tank, a telescopic rod is arranged between the spray head and the body, the spray head is connected with the body through the telescopic rod, the spray head is provided with a nozzle, a camera, a lighting lamp and a distance sensor, the nozzle is used for spraying liquid medicine at a fixed pressure and at a fixed angle, the camera is used for collecting images inside an oral cavity, the lighting lamp is used for improving the brightness in the oral cavity and improving the image collection quality of the camera, the distance sensor is used for collecting distance information between the nozzle and a wound surface in the oral cavity, a delivery pump, a battery and a chip box are arranged on the inner side of the body, the battery supplies power for the delivery pump and each part in the chip box, and a switch and an indicator lamp are arranged on the outer side of the body, the switch can realize the starting of the aerosol sprayer when the switch is pressed for a long time, the battery starts to supply power, the switch is clicked after the aerosol sprayer is started, the starting and the closing of the delivery pump can be realized, when the aerosol sprayer is in an open state, the closing of the aerosol sprayer can be realized by pressing the switch for a long time, the battery stops supplying power, the indicator lamp is turned on when the battery starts to supply power, and is turned off when the battery stops supplying power, the delivery pump is provided with a liquid inlet pipe and a liquid outlet pipe, the liquid inlet pipe extends downwards to the bottom of the medicine storage tank, the liquid outlet pipe is connected with the nozzle, a control module, an analog-to-digital conversion module, a WiFi module, a timing module, a storage module and a graphic processing module are arranged in the chip box, the graphic processing module is used for receiving the image inside the oral cavity collected by the camera and processing the image to obtain a clear image which is sent to the control module, and the analog-to-digital conversion module is used for receiving the information collected by the distance sensor, the control module receives signals sent by the graphic processing module and the digital-to-analog conversion module, analyzes the signals to obtain a wound surface image with an accurate area, sends the information to the storage module, is connected with the mobile terminal through the WiFi module after the aerosol sprayer is started, simultaneously sends the wound surface image to the mobile terminal through the WiFi module and shows the wound surface image to a user and a treatment team through the mobile terminal, the treatment team gives a dosage suggestion according to the wound surface condition and sends the dosage suggestion to the control module through the mobile terminal, the control module calculates dosage duration according to the flow of a delivery pump after receiving the dosage information, sends the dosage duration information to the timing module, and simultaneously calculates the diameter of the minimum circumcircle of the wound surface according to the wound surface image, and controlling the telescopic rod by taking the distance as spraying diameter information, adjusting the distance between the nozzle and the wound surface, clicking a switch after the distance is adjusted, starting the delivery pump, and administering according to the calculated administration time length, wherein the drug is administered through the nozzle at the set spraying diameter, and when the administration time length is reached, stopping the delivery pump to finish administration of the wound surface. The control module sends the medication time, the wound surface image and the medication amount information to the storage module for storage.

2. The aerosol sprayer of claim 1, wherein the angle between the telescoping rod and the central axis of the body is between 90 ° and 180 °.

3. The aerosol sprayer according to claim 1, wherein the indicator light is a YLB5611BH type indicator light, the analog-to-digital conversion module is a STM32F103C8T6 type digital conversion chip, the control module is a HT66F016 chip, the timing module is an LMC555CMX type timing chip, the WiFi module is an ESP8266 type WiFi module, the distance sensor is an MH-B type infrared distance sensor, and the graphics processing module is an STC15W408AS type graphics processing module.

4. The electric toothbrush of claim 1, wherein the control module is further connected to the mobile terminal via a bluetooth module.

5. The electric toothbrush of claim 1, wherein the mobile terminal is a mobile phone or a tablet computer.

6. The powered toothbrush of claim 1, wherein the memory module is a TF memory card.

7. The electric toothbrush according to claim 1, wherein the illuminating lamps are LED illuminating lamps, 3 in number, and uniformly distributed at the edge of the head.

8. A method of using an aerosol spray applicator as claimed in claim 1, comprising the steps of:

(1) the long-time pressing of the switch starts the aerosol sprayer, and the control module is connected with the mobile terminal;

(2) judging whether the user is used for the first time, if the user file needs to be established for the first time, jumping to the step (3), if the user file is established, inputting a user name at the mobile terminal, calling the information stored by the user, and then jumping to the step (4);

(3) inputting a user name on a mobile terminal and establishing a user file;

(4) the method comprises the following steps that a user places a sprayer in the oral cavity, a camera collects images inside the oral cavity and displays the images to the user through a mobile terminal, and the user aims the camera at the wound surface in the oral cavity according to pictures displayed by the mobile terminal;

(5) the camera collects images of the wound surface in the oral cavity, clear and accurate-area images of the wound surface are obtained through the image processing module and are transmitted to the control module, and the control module sends the images to the storage module for storage;

(6) the control module sends all stored wound images of the user to a professional treatment team through the mobile terminal, and the professional treatment team makes a medication suggestion;

(7) the treatment team judges whether the user needs to continue to take the medicine, if the user needs to continue to take the medicine, the treatment team jumps to the step (8), if the user does not need to continue to take the medicine, the treatment team presses the switch of the aerosol medicine sprayer for a long time, the aerosol medicine sprayer is closed, and the whole medicine taking process is finished;

(8) the treatment team gives the dosage and transmits the dosage information back to the control module, and the control module calculates the administration time according to the dosage and the flow of the delivery pump;

(9) the control module determines a spraying range by calculating the diameter of the minimum circumscribed circle of the shape of the wound surface image, and controls the telescopic rod according to the spraying range to adjust the position of the nozzle;

(10) clicking a switch of the atomizing sprayer, and spraying the medicine to the wound surface by the atomizing sprayer according to the determined spraying range and the determined medicine feeding duration;

(11) when the administration duration meets the requirement, the delivery pump automatically stops to finish the administration process;

(12) the control module records the wound surface image, the medication time and the medication amount information and stores the wound surface image, the medication time and the medication amount information to the storage module;

(13) and (3) pressing a switch of the aerial fog pesticide sprayer for a long time, closing the aerial fog pesticide sprayer, completing the medicine taking process, waiting for next medicine taking, and skipping to the step (1) until the treatment team judges that the medicine taking does not need to be continued.

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