CN110730334A - Video monitoring system and method for filtering blue light - Google Patents

Abstract

A video monitoring system and a method for filtering blue light relate to the technical field of blue light treatment equipment. The video monitoring system includes: the device comprises a power management module, a first communication module, an MCU control module, a video monitoring module, a blue light driving and emitting module and a display terminal module; the video monitoring module is connected with the MCU control module; the blue light driving and emitting module is connected with the MCU control module; the first communication module, the MCU control module and the display terminal module; the MCU control module is used for controlling the video monitoring module and the blue light driving and emitting module, and after the video monitoring module collects images, the MCU module is also used for receiving image information collected by the video monitoring module and sending the image information to the display module through the first communication module; the display module is used for receiving the image information sent by the first communication module and displaying the image information. Above-mentioned technical scheme has and observes the convenience to the infant's state of an illness, and is little to medical personnel's harm, control convenient, swift advantage.

Description

Video monitoring system and method for filtering blue light

Technical Field

The invention relates to the technical field of blue light treatment equipment, in particular to a video monitoring system and a method for filtering blue light.

Background

The proportion of jaundice appearing in the newborn is very high, if bilirubin is too high, brain injury of the newborn can be caused possibly, existing treatment means are all to treat the newborn through jaundice treatment instruments, the jaundice treatment instruments on the market at present use blue LED lamps or can emit blue light fluorescent lamps to irradiate the newborn for treatment, however, the harm of the blue light to human eyes is mainly reflected in eye pathology harm, human rhythm harm and the like which cause myopia, cataract and macular degeneration.

At present, the neonatal room is covered by cotton cloth when a jaundice infant is treated in the neonatal room, so that the blue light is reduced to hurt medical care personnel, but the condition of the premature infant changes very quickly, and the abnormalities such as apnea, milk regurgitation, milk choking and the like can occur at any time, so that the medical care personnel can often patrol the infant who is being treated, and the neonatal room is still harmful to the medical care personnel. Therefore, a monitoring system and a method for a jaundice treatment apparatus, which can effectively avoid the damage of blue light to medical care personnel and simultaneously do not delay the observation of the disease condition, are urgently needed to be developed.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the first purpose of the invention is to provide a video monitoring system for filtering out blue light, which is mainly used for a jaundice therapeutic apparatus, wherein a newborn using the jaundice therapeutic apparatus is monitored by a video monitoring module, and a blue light driving and emitting module is turned off when the video monitoring module collects images, so that the harm of the blue light to a body when medical staff patrol a treated infant is avoided, and the video monitoring system has the advantages of good monitoring effect, small harm to the medical staff, and convenience and quickness in monitoring.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a video monitoring system of filtering blue light, its is used for jaundice therapeutic instrument, video monitoring system includes: the device comprises a power management module, a first communication module, an MCU control module, a video monitoring module, a blue light driving and emitting module and a display terminal module; the video monitoring module is connected with the MCU control module, is used for receiving a control signal sent by the MCU control module and executing opening or closing action according to the control signal, and is also used for transmitting collected image information back to the MCU module after executing one opening or closing action; the blue light driving and emitting module is connected with the MCU control module and is used for receiving a control signal sent by the MCU control module and executing opening or closing actions according to the control signal so as to realize blue light filtering when the video monitoring module collects images; the first communication module is used for establishing data connection between the MCU control module and the display terminal module; the MCU control module is used for controlling the video monitoring module and the blue light driving and emitting module, and after the video monitoring module collects images, the MCU module is also used for receiving image information collected by the video monitoring module and sending the image information to the display module through the first communication module; the display module is used for receiving the image information sent by the first communication module and displaying the image information so as to be convenient for medical staff to check; the power module is electrically connected with the first communication module, the MCU control module, the video monitoring module and the blue light driving and emitting module.

And the display terminal module is provided with a second communication module which is used for being connected with the first communication module so as to establish data connection between the MCU control module and the display terminal module.

The first communication module and the second communication module can be any one, two or three of a WiFi module, a 5G module, a Bluetooth module, a network cable interface module and an NB-IOT module.

The video monitoring module is a photographing device or a video recording device.

The video surveillance system further comprises: and the human-computer interaction module is connected with the MCU module and is used for setting the photographing updating time transmitted by the video monitoring module and the opening and closing interval of the blue light driving and emitting module by a user.

The man-machine interaction module is a nixie tube, a liquid crystal input screen or a mobile phone APP.

The video monitoring system further comprises a cloud server, the cloud server is connected with the first communication module and the second communication module, the cloud server is used for storing image information sent by the first communication module, and the second communication module is used for acquiring the image information on the cloud server and transmitting the image information to the display terminal module in real time.

The display terminal module is a desktop computer, a tablet computer or a mobile phone provided with display software matched with the video monitoring system.

After the technical scheme is adopted, the invention has the beneficial effects that: when the video monitoring system is adopted to monitor the sick children using the jaundice treatment instrument, the jaundice treatment instrument is started first and the video monitoring system matched with the jaundice treatment instrument is started, the human-computer interaction module is used for setting the photographing updating time and the interval time between the blue light drive and the emission module, then, the MCU control module controls the video monitoring module and the blue light driving and emitting module according to the data set by the man-machine interaction module, when the set video monitoring updating time is reached, the MCU control module controls the video monitoring module to be started, and simultaneously controls the blue light driving and emitting module to be closed, therefore, the interference of blue light when the video monitoring module carries out image acquisition is effectively avoided, otherwise, the MCU control module controls the video monitoring module to be closed, and simultaneously the MCU control module also controls the blue light driving and emitting module to be opened; subsequently, MCU control module is put in the image information transmission that video monitoring module will gather, MCU control module uploads this information to the high in the clouds server through first communication module again, and finally, the display terminal module acquires the data in the high in the clouds server module through second communication module and shows, thereby realize video monitoring, the video monitoring system who sets up like this has avoided medical personnel to patrol and has caused harm to the health in the blue light when the infant who is treating, it is convenient to have the sick state of an illness of infant and observe, harm is little to medical personnel, and convenient monitoring, swift advantage.

In view of the defects and shortcomings of the prior art, a second objective of the present invention is to provide a video monitoring method for filtering out blue light, which is mainly used for a jaundice therapy apparatus, and the video monitoring module is used for monitoring a newborn using the jaundice therapy apparatus, and the blue light driving and emitting module is turned off when the video monitoring module collects images, so that the harm of the blue light to the body when a medical staff visits a treated child is avoided, and meanwhile, the illness state of the child can be observed in real time.

A video monitoring method for filtering blue light, which is used for a jaundice treatment apparatus, and is based on the video monitoring system for filtering blue light according to claim 7, wherein the method comprises:

s1, preparing a jaundice treatment instrument and installing the video monitoring system of claim 7;

s2, manually starting the jaundice therapeutic apparatus and activating a video monitoring system;

s3, setting the shooting update time transmitted by the video monitoring module and the opening and closing interval of the blue light driving and emitting module through the human-computer interaction module;

s4, the MCU control module controls the video monitoring module and the blue light driving and emitting module to open and close according to the setting of the human-computer interaction module, when the set video monitoring update time is reached, the MCU control module controls the video monitoring module to open, and simultaneously the MCU control module controls the blue light driving and emitting module to close, thereby effectively avoiding the interference of blue light when the video monitoring module carries out image acquisition, otherwise, the MCU control module controls the video monitoring module to close, and simultaneously the MCU control module controls the blue light driving and emitting module to open;

s5, after the video monitoring module collects images, the collected images are transmitted to the MCU control module, and then the MUC control module sends the received information to the first communication module;

s6, the first communication module uploads the received information to a cloud server in real time for storage;

and S7, the display software on the display terminal acquires the video stored on the cloud server in real time through the second communication module and displays the video for medical staff to check and monitor.

After the technical scheme is adopted, the invention has the beneficial effects that: by adopting the method, the remote video monitoring of the sick children receiving the treatment can be realized, the harm of blue light to the body when medical care personnel patrol the sick children receiving the treatment is avoided, and the method has the advantages of convenience in observing the illness state of the sick children, small harm to the medical care personnel and convenience and quickness in monitoring.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a block diagram of the entire structure of the present embodiment.

Description of reference numerals: 1. a power management module; 2. a first communication module; 3. an MCU control module; 4. a video monitoring module; 5. a blue light driving and emitting module; 6. a display terminal module; 7. a second communication module; 8. a human-computer interaction module; 9. and a cloud server.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment as necessary without making a contribution thereto after reading the present specification, but all are protected by patent laws within the scope of the claims of the present invention.

This embodiment relates to a video monitor system of filtering blue light, it is used for jaundice therapeutic instrument, as shown in fig. 1, video monitor system includes: the device comprises a power management module 1, a first communication module 2, an MCU control module 3, a video monitoring module 4, a blue light driving and emitting module 5 and a display terminal module 6.

Specifically, as shown in fig. 1, the video monitoring module 4 is connected to the MCU control module 3, the video monitoring module 4 is configured to receive a control signal sent by the MCU control module 3 and execute an opening or closing action according to the control signal, and after executing the opening or closing action once, the video monitoring module 4 is further configured to transmit the acquired image information back to the MCU module. The blue light driving and emitting module 5 is connected with the MCU control module 3, and the blue light driving and emitting module 5 is used for receiving a control signal sent by the MCU control module 3 and executing opening or closing actions according to the control signal so as to realize blue light filtering when the video monitoring module 4 collects images. The first communication module 2 is connected with the MCU control module 3 and the display terminal module 6, and the first communication module 2 is used for establishing data connection between the MCU control module 3 and the display terminal module 6. The MCU control module 3 is used for controlling the video monitoring module 4 and the blue light driving and emitting module 5, and after the video monitoring module 4 collects images, the MCU module is also used for receiving image information collected by the video monitoring module 4 and sending the image information to the display module through the first communication module 2. The display module is used for receiving the image information sent by the first communication module 2 and displaying the image information so as to facilitate the medical staff to check. The power module is electrically connected with the first communication module 2, the MCU control module 3, the video monitoring module 4 and the blue light driving and emitting module 5.

Preferably, as shown in fig. 1, the display terminal module 6 is provided with a second communication module 7, and the second communication module is used for being connected with the first communication module 2, so that a data connection is established between the MCU control module 3 and the display terminal module 6. The video monitoring module 4 is a photographing device or a video recording device.

Specifically, as shown in fig. 1, the first communication module 2 and the second communication module 7 may be any one, two, or three of a WiFi module, a 5G module, a bluetooth module, a network cable interface module, and an NB-IOT module. Preferably, the first communication module 2 and the second communication module 7 are both WIFI modules.

Further, as shown in fig. 1, the video monitoring system further includes a human-computer interaction module 8, and the human-computer interaction module is connected to the MCU module. The human-computer interaction module 8 is used for a user to set the shooting update time transmitted by the video monitoring module 4 and the switching interval of the blue light driving and emitting module 5.

The human-computer interaction module 8 is a nixie tube, a liquid crystal input screen or a mobile phone APP. Preferably, the human-computer interaction module 8 is a liquid crystal input screen.

Further, as shown in fig. 1, the video monitoring system further includes a cloud server 9, and the cloud server 9 is connected to both the first communication module 2 and the second communication module 7. The cloud server 9 is used for storing the image information sent by the first communication module 2, and the second communication module 7 is used for acquiring the image information on the cloud server 9 and transmitting the image information to the display terminal module 6 in real time.

Specifically, the display terminal module 6 is a desktop computer, a tablet computer, or a mobile phone equipped with display software matched with the video monitoring system. In this embodiment, the display module is a desktop computer installed with display software matching with the video monitoring system.

The working principle of the invention is roughly as follows: when the video monitoring system is adopted to monitor the sick children using the jaundice treatment instrument, the jaundice treatment instrument is started first and the video monitoring system matched with the jaundice treatment instrument is started, when the human-computer interaction module 8 is used for setting the photographing updating time and the interval time between the blue light driving and the opening and the closing of the emitting module 5, then, the MCU control module 3 controls the video monitoring module 4 and the blue light driving and emitting module 5 according to the data set by the human-computer interaction module 8, when the set video monitoring updating time is reached, the MCU control module 3 controls the video monitoring module 4 to be started, and simultaneously the MCU control module 3 also controls the blue light driving and emitting module 5 to be closed, therefore, the interference of blue light when the video monitoring module 4 carries out image acquisition is effectively avoided, otherwise, the MCU control module 3 controls the video monitoring module 4 to be closed, and simultaneously the MCU control module 3 also controls the blue light driving and emitting module 5 to be opened; subsequently, MCU control module 3 is put in the image information transmission that video monitoring module 4 will gather, MCU control module 3 uploads this information to high in the clouds server 9 through first communication module 2 again, and finally, display terminal module 6 acquires the data in the high in the clouds server 9 module through second communication module 7 and shows, thereby realize video monitoring, the video monitoring system who sets up like this has avoided medical personnel to patrol and has led to the fact harm to the health in the blue light when the infant who is treating, it is convenient to have the sick state of an illness of infant and observe, it is little to medical personnel's harm, and the control is convenient, and is fast.

The embodiment also provides a video monitoring method for filtering blue light, which is based on the video monitoring system for filtering blue light described in the above embodiment and is used for a jaundice treatment apparatus, and the method includes:

s1, preparing a jaundice treatment instrument and installing the video monitoring system as claimed in claim 7;

s2, manually starting the jaundice therapeutic apparatus and activating a video monitoring system;

s3, setting the shooting update time transmitted by the video monitoring module 4 and the opening and closing interval of the blue light driving and emitting module 5 through the human-computer interaction module 8;

s4, the MCU control module 3 controls the video monitoring module 4 and the blue light driving and emitting module 5 to be opened and closed according to the setting of the human-computer interaction module 8, when the set video monitoring update time is reached, the MCU control module 3 controls the video monitoring module 4 to be opened, and simultaneously the MCU control module 3 also controls the blue light driving and emitting module 5 to be closed, so that the interference of blue light when the video monitoring module 4 carries out image acquisition is effectively avoided, otherwise, the MCU control module 3 controls the video monitoring module 4 to be closed, and simultaneously the MCU control module 3 also controls the blue light driving and emitting module 5 to be opened;

s5, after the video monitoring module 4 collects images, the collected images are transmitted to the MCU control module 3, and then the MUC control module sends the received information to the first communication module 2;

s6, the first communication module 2 uploads the received information to the cloud server 9 in real time for storage;

and S7, the display software on the display terminal acquires the video stored in the cloud server 9 in real time through the second communication module 7 and displays the video for the medical staff to check and monitor.

After the technical method is adopted, the beneficial effects are as follows: by adopting the method, the remote video monitoring of the sick children receiving the treatment can be realized, the harm of blue light to the body when medical care personnel patrol the sick children receiving the treatment is avoided, and the method has the advantages of convenience in observing the illness state of the sick children, small harm to the medical care personnel and convenience and quickness in monitoring.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered by the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. The utility model provides a video monitoring system of filtering blue light, its is used for jaundice therapeutic instrument, a serial communication port, video monitoring system includes: the device comprises a power management module (1), a first communication module (2), an MCU control module (3), a video monitoring module (4), a blue light driving and emitting module (5) and a display terminal module (6);

the video monitoring module (4) is connected with the MCU control module (3), the video monitoring module (4) is used for receiving a control signal sent by the MCU control module (3) and executing opening or closing action according to the control signal, and after executing one opening or closing action, the video monitoring module (4) is also used for transmitting the collected image information back to the MCU module;

the blue light driving and emitting module (5) is connected with the MCU control module (3), and the blue light driving and emitting module (5) is used for receiving a control signal sent by the MCU control module (3) and executing opening or closing actions according to the control signal so as to realize blue light filtering when the video monitoring module (4) collects images;

the first communication module (2) is connected with the MCU control module (3) and the display terminal module (6), and the first communication module (2) is used for establishing data connection between the MCU control module (3) and the display terminal module (6);

the MCU control module (3) is used for controlling the video monitoring module (4) and the blue light driving and emitting module (5), and after the video monitoring module (4) collects images, the MCU module is also used for receiving image information collected by the video monitoring module (4) and sending the image information to the display module through the first communication module (2);

the display module is used for receiving the image information sent by the first communication module (2) and displaying the image information so as to be convenient for medical staff to check;

the power module is electrically connected with the first communication module (2), the MCU control module (3), the video monitoring module (4) and the blue light driving and emitting module (5).

2. The video monitoring system for filtering out blue light according to claim 1, wherein a second communication module (7) is disposed on the display terminal module (6), and the second communication module is used for being connected with the first communication module (2) so as to establish a data connection between the MCU control module (3) and the display terminal module (6).

3. The video monitoring system for filtering out blue light according to claim 2, wherein the first communication module (2) and the second communication module (7) can be any one, two or three of a WiFi module, a 5G module, a bluetooth module, a network cable interface module and an NB-IOT module.

4. The video monitoring system for filtering out blue light according to claim 3, wherein the video monitoring module (4) is a photographing device or a video recording device.

5. The video monitoring system for filtering out blue light according to claim 4, further comprising: and the human-computer interaction module (8) is connected with the MCU module, and the human-computer interaction module (8) is used for setting the photographing updating time transmitted by the video monitoring module (4) and the opening and closing interval of the blue light driving and emitting module (5) by a user.

6. The video monitoring system for filtering out blue light according to claim 5, wherein the human-computer interaction module (8) is a nixie tube, a liquid crystal input screen or a mobile phone APP.

7. The video monitoring system for filtering out blue light according to claim 6, further comprising a cloud server (9), wherein the cloud server (9) is connected to both the first communication module (2) and the second communication module (7), the cloud server (9) is configured to store image information sent by the first communication module (2), and the second communication module (7) is configured to acquire image information on the cloud server (9) and transmit the image information to the display terminal module (6) in real time.

8. The video monitoring system for filtering out blue light according to claim 7, wherein the display terminal module (6) is a desktop computer, a tablet computer or a mobile phone equipped with display software matched with the video monitoring system.

9. A video monitoring method for filtering blue light, which is used for a jaundice treatment apparatus, and is based on the video monitoring system for filtering blue light according to claim 7, wherein the method comprises:

s1, preparing a jaundice treatment instrument and installing the video monitoring system of claim 7;

s2, manually starting the jaundice therapeutic apparatus and activating a video monitoring system;

s3, setting the shooting update time transmitted by the video monitoring module (4) and the opening and closing interval of the blue light driving and emitting module (5) through the human-computer interaction module (8);

s4, the MCU control module (3) controls the video monitoring module (4) and the blue light driving and emitting module (5) to be opened and closed according to the setting of the human-computer interaction module (8), when the set video monitoring updating time is up, the MCU control module (3) controls the video monitoring module (4) to be opened, and simultaneously the MCU control module (3) controls the blue light driving and emitting module (5) to be closed, so that the interference of blue light when the video monitoring module (4) carries out image acquisition is effectively avoided, otherwise, the MCU control module (3) controls the video monitoring module (4) to be closed, and simultaneously the MCU control module (3) controls the blue light driving and emitting module (5) to be opened;

s5, after the video monitoring module (4) collects images, the collected images are transmitted to the MCU control module (3), and then the MUC control module sends the received information to the first communication module (2);

s6, the first communication module (2) uploads the received information to a cloud server (9) in real time for storage;

and S7, the display software on the display terminal acquires the video stored in the cloud server (9) in real time through the second communication module (7) and displays the video for the medical staff to check and monitor.

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