CN214962117U - Adsorption type medical media biological condition measuring and reporting device with double shooting recognition function - Google Patents

Abstract

The utility model discloses a have two discernment absorption formula media biological condition forecast devices of taking photograph, the device includes: the upper cover unit is used for trapping the medical media organisms by one or more of carbon dioxide, trapping liquid and trapping light and acquiring real-time images of the trapped medical media organisms by using the vertical camera; the inner cavity insect receiving unit is used for adsorbing the trapped vector organisms and acquiring real-time images of the adsorbed vector organisms by using the side camera; the communication unit is used for providing one or more communication modes of 4G/5G, Bluetooth, USB and RS 485; and the data processing and analyzing unit is used for preprocessing the acquired image information of the medical medium organisms and transmitting data to the upper computer through the communication unit. The utility model provides a traditional medical biological monitoring means inefficiency, the biological collection result error of medical is big, the poor scheduling problem of data teletransmission timeliness.

Description

Adsorption type medical media biological condition measuring and reporting device with double shooting recognition function

Technical Field

The utility model relates to a media environmental monitoring technical field, concretely relates to have two discernment absorption formula media biological condition forecast devices of taking photograph.

Background

Along with the increasing expansion of urban construction scale and the acceleration of the urbanization process of rural areas, the living standard of people is greatly improved, and public health safety problems are more and more concerned by people, such as disease prevention and control, vector biological monitoring and the like.

The urban vector biological project developed in China is a large-scale practice guided by the theory of comprehensive pest control, and has positive social significance. But still obtain relevant data based on traditional means, the main defect is: 1) at present, domestic pest and disease monitoring is mainly achieved through manual monitoring means, the mode is low in efficiency, manpower and material resources are wasted, and measuring and reporting data lack continuity. 2) Monitoring technologies of ultraviolet trapping and image recognition are available in the market, but the ultraviolet trapping device traps surrounding organisms by using an ultraviolet sensing technology, but other organisms are also attracted in the trapping process, so that the processing complexity of various monitoring data is high, and the error of the monitoring result is large. 3) Most of the existing pest forecast lamps in the market adopt WiFi or GPRS for data or image transmission, but the WiFi is not suitable for outdoor application, and the GPRS is only suitable for data transmission and is not suitable for multi-frame image transmission.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a have two discernment absorption formula medias biological condition forecast devices of taking photograph for solve traditional medias biological monitoring means inefficiency, the biological collection result error of medias is big, the poor scheduling problem of data remote transmission timeliness.

In order to achieve the above object, the utility model adopts the following technical scheme:

an adsorption type medical media biological condition measuring and reporting device with double shooting identification function comprises: the device comprises an outer wall unit, an upper cover unit, an inner cavity insect receiving unit, a data processing and analyzing unit and a communication unit, wherein the upper cover unit, the inner cavity insect receiving unit, the data processing and analyzing unit and the communication unit are arranged on the outer wall unit; the upper cover unit is used for trapping the medical media organisms by one or more of carbon dioxide, trapping liquid and trapping light and acquiring real-time images of the trapped medical media organisms by using the vertical camera; the inner cavity insect receiving unit is used for adsorbing the trapped medical organisms and acquiring real-time images of the adsorbed medical organisms by using the side camera; the communication unit is used for providing one or more communication modes of 4G/5G, Bluetooth, USB and RS 485; the data processing and analyzing unit is used for preprocessing the acquired image information of the medical media creatures and transmitting data to the upper computer through the communication unit.

Further, the apparatus further comprises: the corpse collecting box unit is used for collecting corpses of the vector organisms; a battery unit for supplying power; and the voltage processing unit is used for outputting the voltage processed by the power supply to each component unit of the device for power supply.

Further, the data processing and analyzing unit is further configured to monitor and control each component unit of the device, and includes: camera control, carbon dioxide valve control, trapping liquid filling switch control, air suction/exhaust switch control and the like.

Further, the outside top of outer wall unit is located to the upper cover unit, including top cap, heating lid, be used for holding the liquid of traping cabin, the carbon dioxide gas cabin that is used for holding carbon dioxide, be used for heating the heating device, perpendicular camera support, awl lid, perpendicular camera and the light filling lamp plate of traping liquid.

Furthermore, the distance between the upper cover unit and the outer wall unit is adjustable, so that different media organisms can be trapped; the light type on the light filling lamp plate is adjustable to realize trapping of different types of medical media organisms.

Further, the inner cavity connects worm unit to locate the inside upper end of outer wall unit, including side camera, side camera hood, go up the funnel, connect worm board, funnel, fan, inner chamber wall and inner cavity bottom down.

Furthermore, connect corpse box unit to locate the inside middle section of outer wall unit, including connecting corpse funnel, corpse box and induced draft fan.

Furthermore, the battery unit is arranged at the bottom of the inner part of the outer wall unit and comprises a solar charging and discharging battery, a photovoltaic panel and a controller; the solar charging and discharging battery is a lithium iron phosphate battery or a lead-acid battery and is connected with the photovoltaic panel and the controller through a lead.

According to the technical scheme provided by the utility model, the beneficial effects of the utility model reside in that:

the utility model discloses technical scheme, be applicable to the biological luring of media under the complex environment, can be convenient carry out the biological image acquisition of media and image information preliminary treatment, it is efficient to have, the accuracy is high, advantages such as data transmission timeliness is high, it is poor to solve the plant diseases and insect pests monitoring facilities integrated level among the prior art, low efficiency, it is high to handle the complexity between different grade type plant diseases and insect pests data, the acquisition result error is big, real-time data is more untimely, transmission timeliness is poor, defects such as cost of labor height, thereby the convenience is to the biological effective survey and report of media under different ecological environment states, and improve the installation convenience.

Drawings

In order to more clearly illustrate the technical solution of the embodiment of the present invention, the drawings used in the description of the embodiment and the prior art will be briefly described below.

Fig. 1 is a schematic structural diagram of an adsorption type medical media biological condition monitoring and reporting device with dual-camera recognition according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a main control circuit with a dual-camera recognition adsorption type medical media biological condition monitoring and reporting device provided by the embodiment of the present invention;

FIG. 3 is a flow chart of the medical biological collection control software of the device according to the embodiment of the present invention;

fig. 4 is a schematic flow chart of the frequency domain high-frequency FFT detection image processing algorithm in the embodiment of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

The terms "first," "second," "third," and the like in the description and in the claims, and in the drawings described above, are used for distinguishing between different objects and not necessarily for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

The following are detailed descriptions of the respective embodiments.

Fig. 1 shows that what the embodiment of the utility model provided a have two structural schematic that take photograph discernment adsorption-type media biological condition forecast device, the device includes device main part and master control circuit 24, and the device main part includes: the upper cover unit, the inner cavity connect the worm unit, connect corpse case unit, outer wall unit 1 and battery unit 22, and main control circuit 24 includes data processing and analysis unit, communication unit and voltage processing unit.

The upper cover unit is arranged above the outer wall unit 1, and comprises a top cover 7, a heating cover 8, a trapping liquid cabin 4 for containing trapping liquid, a carbon dioxide gas cabin 6 for containing carbon dioxide (CO2), a heating device 5 for heating trapping liquid, a vertical camera support 9, a conical cover 10, a vertical camera 11 and a light supplementing lamp panel 12, wherein the vertical camera 11 is used for trapping the medical media organisms by utilizing carbon dioxide, trapping liquid and/or trapping light and acquiring real-time images of the medical media organisms by utilizing the vertical camera 11. The light filling lamp panel 12 can be provided with a camera light filling lamp and a trapping lamp capable of emitting trapping light.

The inner cavity connects the worm unit to locate the inside upper end of outer wall unit 1, including the side camera 3 of side position, side camera hood 2, big-end-up's last funnel 13, connect worm board (shelves mosquito board) 14, big-end-up's lower funnel 15, fan 16, inner chamber wall (guide plate) 17 and inner chamber bottom 18 for adsorb the media biology of trapping, utilize side camera 13 to carry out real-time image information acquisition to the adsorbed media biology, and discharge the adsorbed media biology.

The corpse collecting box unit is arranged in the middle section in the outer wall unit 1 and comprises a corpse collecting funnel 19, a corpse collecting box 20 and an air suction fan 21, and the corpse collecting funnel is used for collecting the biological corpses of the vectors.

The outer wall unit 1 is a main body bearing part of the whole device, is used for installing other constituent units of the deployment device, and can be used for air suction and air exhaust, namely, the outer wall unit 1 can be provided with an air suction opening and an air exhaust opening.

The battery unit 22 is arranged at the bottom inside the outer wall unit 1 and comprises a solar charging and discharging battery, a photovoltaic panel and a controller, and is used for providing power for supplying power to the device. The solar charging and discharging battery can adopt a lithium iron phosphate battery or a lead-acid battery and is connected with the photovoltaic panel and the controller through a lead.

The main control circuit 24 is installed on a fixing plate 23 arranged at the bottom inside the outer wall unit 1, mainly comprises a data processing and analyzing unit, a communication unit and a voltage processing unit, and serves as a control center of the whole device. The data processing and analyzing unit is composed of a processor based on a Linux system, is used for processing and analyzing data, and the processed data comprises video data, image data and the like acquired by the vertical camera and the side camera, is also used for monitoring, early warning and controlling electronic and electrical equipment of other constituent units of the device, and is used for transmitting data to the upper computer through the communication unit. The communication unit comprises a 4G/5G communication module, a Bluetooth module, a USB communication module and an RS485 module, and provides communication modes such as 4G/5G, Bluetooth, USB and RS 485. And the voltage processing unit is used for processing the voltage of the power supply provided by the battery unit and then providing the processed power supply for the electronic and electrical equipment of each component unit of the device to supply power, and has the functions of voltage switching and power-off protection, and also has the functions of surge prevention, static prevention, electromagnetic compatibility (EMC) and the like.

In the device, each unit (the upper cover unit, the inner cavity insect receiving unit, the corpse collecting box unit, the outer wall unit, the battery unit, the data processing and analyzing unit, the communication unit and the voltage processing unit) is independently installed and can be fixed through viscose glue or a locking screw.

In the upper cover unit: the top cover 7 is arranged at the top and plays a role in protection; the vertical camera support 9 is arranged below the top cover 7 and in the center above the outer wall unit 1; the vertical camera bracket 9 is arranged in the vertical camera bracket 9, and the lens faces downwards; the heating cover 8 is positioned above the conical cover 10, and both the heating cover and the conical cover are arranged around the vertical camera support 9; the carbon dioxide gas cabin 6 is arranged above the heating cover 8; the trapping liquid chamber 4 is formed in the conical cover 10; the heating device 5 is arranged in the trapping liquid tank 4; the light supplementing lamp plate 12 is disposed below the vertical camera support 9, and an avoiding hole is formed in a position corresponding to the lens of the vertical camera 11.

And all modules (a top cover 7, a heating cover 8, a trapping liquid cabin 4, a carbon dioxide gas cabin 6, a heating device 5, a vertical camera support 9, a cone cover 10, a vertical camera 11 and a light supplementing lamp panel 12) of the upper cover unit are hermetically installed and processed. The cone cover 10 is designed to be provided with a hole at the cone bottom, and the hole is designed from small to large in the order of the hole diameter from top to bottom. The carbon dioxide air inlet hole adopts a sealing design. The vertical camera support 9 adopts a gear type adjustable design, and can adjust the vertical camera up and down and also adjust the vertical camera left and right. The vertical camera lens focuses downwards to take a picture and is connected with the main control circuit through the USB connecting wire. The camera light supplement lamp is located on the light supplement lamp panel 12 and connected with the main control circuit through a wire. The trapping liquid tank 4 is pasted with a temperature heating module as a heating device 5, the temperature can be set between 32 ℃ and 37 ℃, and the temperature in the trapping liquid tank is adjusted in a self-adaptive way through a temperature sensing device. The trapping of different media organisms can be realized by adjusting the distance between the upper cover unit and the outer wall unit. By changing different types of light installed on the light supplement lamp panel 12, different types of medical media creatures can be trapped.

The inner cavity is connected with the insect unit: the inner cavity wall 17 is coaxially arranged at the upper end of the inner part of the outer wall unit 1, the inner cavity bottom cover 18 is used for closing the bottom opening of the inner cavity wall 17, and other components of the inner cavity insect receiving unit are all arranged in the inner part of the inner cavity wall 17. Wherein, go up funnel 13, connect worm board 14 and funnel 15 down to connect gradually from last, go up the outer edge of funnel 13 and connect in the last edge of inner chamber wall 17, go up the center alignment of funnel 13 perpendicular camera 11, side camera 3 is located and goes up along one side on funnel 13, is installed fixedly by side camera hood 2, is equipped with a plurality of trompils that allow the biological below of passing through of media on connecting worm board 14, and fan 16 locates funnel 15's below down. The bottom of the inner cavity bottom cover 18 is provided with an opening. The inner cavity wall 17 is provided with an air outlet.

All modules (a side camera 3, a side camera cover 2, an upper funnel 13, an insect receiving plate (a mosquito baffle plate) 14, a lower funnel 15, a fan 16, an inner cavity wall 17 and an inner cavity bottom cover 18) of the inner cavity insect receiving unit are installed in a sealing mode. The side camera cover 2 adopts gear type adjustable design, and the focal length of the camera is ensured to be adjustable. The insect receiving plate 14 is designed to be provided with a plurality of through holes densely, the insect receiving plate can be connected with the lower funnel 15 through viscose glue, the lower funnel 15 is fixed with the forward and reverse rotating fan 16 and the inner cavity bottom cover 18 through locking screws, and sealing treatment is carried out through sealing rings. The forward/reverse rotation fan 16 may include a single forward/reverse rotation fan and two independent forward/reverse rotation fans combined to realize forward/reverse rotation. The adsorption function of different vector organisms can be realized by configuring the aperture size of the insect receiving plate and the air quantity of the fan.

And all modules (a corpse receiving funnel 19, a corpse collecting box 20 and an air suction fan 21) of the corpse collecting box unit are hermetically installed. The middle of the bottom plate of the corpse collecting box 20 is provided with an air suction hole, the opening interval is smaller than the diameter of an air suction fan, and the corpse collecting box 20 can be connected with the shell by adopting a drawer type so as to be taken out conveniently.

When using the device of the present embodiment: different media organisms can be trapped by adjusting the distance between the upper cover unit and the outer wall unit. The image acquisition of different media organisms can be realized by adjusting the focal lengths of the vertical camera and the side camera. The adsorption capacity to different vector organisms can be realized by adjusting the aperture size of the insect receiving plate, the air quantity of the fan and the caliber of the air outlet of the inner cavity/outer cavity. Different types of light installed on the light supplementing lamp panel can be changed to trap different media organisms.

Fig. 2 is a schematic circuit diagram of the main control circuit of the present invention. The main control circuit comprises a data processing and analyzing unit, a communication unit and a voltage processing unit and is arranged on the fixing plate 23. The main control circuit can be realized by adopting a bottom plate core board set mode. The core board comprises a Main Processor Unit (MPU) module, a register module, a memory module, a USB interface module, a Bluetooth interface module, a clock module and the like. The bottom plate comprises a power supply processing module, a voltage processing module, a key module, a display module, an audible and visual alarm module, an IIC interface/SPI interface/RS 485 interface module, a 4G/5G communication module (with a GPS function) and a surge/ESD/EMC protection module. The core plate and the bottom plate are spliced by inserting a thimble or opening a golden finger. In the communication unit, communication modes such as a 4G/5G communication module, a Bluetooth module, a USB module, an RS485 module, an IIC interface, an SPI interface and the like are provided, and the communication modes are used for sending monitoring data or other data to an upper computer. The upper computer can comprise a cloud platform, a database, a web back end, a web front end and an APP client. The data display module comprises a touch display screen and a non-touch display screen.

Fig. 3 is a schematic diagram of a flow chart of the medical media biological collection control software of the device according to the embodiment. In fig. 3, (1) is an initialization software programming flow, (2) is an acquisition thread software programming flow, and (3) is a control thread software programming flow. The initialization software programming flow comprises the steps of initializing a 4G/5G module, initializing a temperature sensor, initializing a Pulse Width Modulation (PWM) module, initializing a camera, starting a thread and the like. The acquisition thread software programming flow comprises the steps of acquiring a thread, opening a camera to acquire pictures, sending the pictures to an upper computer, closing the camera, closing a suction fan, simultaneously starting a blower, sleeping for one-hour circulation and the like. The control thread software programming flow comprises the steps of controlling the thread, opening a carbon dioxide valve, sleeping for half an hour for circulation and the like.

Fig. 4 is a schematic flow chart of the processing and analyzing unit performing the processing and analyzing by using the frequency domain high frequency FFT detection image processing algorithm in this embodiment. The algorithm software model comprises an image acquisition module, an initial value filtering module, an image segmentation module, a median filtering module, a Laplacian operator module, a smoothing/normalization module, a characteristic parameter extraction module, a characteristic parameter analysis/comparison module and an execution processing module. The algorithm flow comprises the steps of image acquisition, initial value filtering, image segmentation, median filtering, Laplacian operator processing, smoothing/normalization, characteristic parameter (parameter) extraction, characteristic parameter (parameter) analysis/comparison, execution processing and the like.

Based on the above algorithm, the present embodiment provides an online information processing method, including: acquiring image information of the medical creature by using a vertical camera and a side camera, and preprocessing the acquired image information of the medical creature; therefore, rough processing of the medical media biological picture information is achieved, the processed data can be transmitted to the upper computer in one or more communication modes of 4G/5G, Bluetooth, USB and RS485, and accordingly data reference is provided for subsequent image processing and identification of the background upper computer, and meanwhile background processing pressure is relieved. The preprocessing step can include image acquisition, initial value filtering, image segmentation, median filtering, laplacian processing, smoothing/normalization, feature parameter extraction and feature parameter analysis, and the feature parameter analysis can include data classification and data comparison.

The method is used for analyzing and processing data acquired by various sensors and cameras. The method comprises the steps of preprocessing acquired image information of the medical media organisms, performing rough processing of characteristic parameter extraction, data classification and data comparison, further establishing and continuously training a prediction model, further performing initial judgment on the image information, and using an initial judgment result to provide data reference for a subsequent image recognition algorithm model and an artificial intelligence algorithm model. The method is favorable for further improving the identification accuracy and precision. And the pressure of the server on big data processing and analysis is relieved.

The data processing and analyzing unit is used for monitoring, early warning and controlling the electronic and electrical equipment of other constituent units of the device besides executing the online information processing method, namely, controlling the shooting of images collected by a camera, controlling a carbon dioxide valve, controlling air suction/exhaust switches of various fans, controlling a filling switch of trapping liquid and the like, and further comprises start-stop time, running logic sequence, running period and the like.

The utility model discloses technical scheme, be applicable to the biological trapping of media under the complex environment, can be convenient carry out the biological image acquisition of media and image information preliminary treatment and characteristic parameter and draw, it is efficient to have, the accuracy is high, advantages such as data transmission timeliness is high, it is poor to solve among the prior art plant diseases and insect pests monitoring facilities integrated level, low efficiency, it is high to handle the complexity between different grade type plant diseases and insect pests data, the acquisition result error is big, real-time data is more untimely, transmission timeliness is poor, defects such as cost of labor height, thereby convenient effective forecast to the media biology under different ecological environment states, and improve the installation convenience.

The utility model improves the emergency response mechanism through the remote monitoring and centralized control technology, and reduces the labor and time cost; the identification accuracy of the medical media biological monitoring is improved through an image acquisition device identified by a vertical camera and a lateral direction camera and a frequency domain high-frequency FFT detection image preprocessing algorithm; the device has the advantages of strong expansibility, increased flexibility, integration of various sensors to realize environment monitoring, intelligent ecology, detection, prediction, prevention and control of various plant diseases and insect pests based on the established vector biological algorithm model and the like.

The utility model discloses an adopt high performance embedded chip and embedded control technology to guarantee lasting high-efficient stable work of device, thereby support the rate of accuracy that mode identification, artificial intelligence algorithm improved the media biological model based on traditional system design, realize more reliable remote data transmission through novel ad hoc network technique.

The technical solution of the present invention has been described in detail through the specific embodiments. In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; the technical solutions described in the above embodiments can be modified or part of the technical features can be equivalently replaced by those skilled in the art; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. An adsorption type medical media biological condition measuring and reporting device with double-shooting identification is characterized in that,

the method comprises the following steps: the device comprises an outer wall unit, an upper cover unit, an inner cavity insect receiving unit, a data processing and analyzing unit and a communication unit, wherein the upper cover unit, the inner cavity insect receiving unit, the data processing and analyzing unit and the communication unit are arranged on the outer wall unit;

the upper cover unit is used for trapping the medical media organisms by one or more of carbon dioxide, trapping liquid and trapping light and acquiring real-time images of the trapped medical media organisms by using the vertical camera;

the inner cavity insect receiving unit is used for adsorbing the trapped medical organisms and acquiring real-time images of the adsorbed medical organisms by using the side camera;

the communication unit is used for providing one or more communication modes of 4G/5G, Bluetooth, USB and RS 485;

the data processing and analyzing unit is used for preprocessing the acquired image information of the medical media creatures and transmitting data to the upper computer through the communication unit.

2. The apparatus of claim 1, further comprising:

the corpse collecting box unit is used for collecting corpses of the vector organisms;

a battery unit for supplying power;

and the voltage processing unit is used for outputting the voltage processed by the power supply to each component unit of the device for power supply.

3. The apparatus of claim 1,

the outside top of outer wall unit is located to the upper cover unit, including top cap, heating lid, be used for holding the liquid of traping in traping the liquid cabin, be used for holding carbon dioxide's carbon dioxide gas cabin, be used for heating the heating device, perpendicular camera support, awl lid, perpendicular camera and light filling lamp plate of traping the liquid.

4. The apparatus of claim 3,

the distance between the upper cover unit and the outer wall unit is adjustable, so that different media organisms can be trapped;

the light type on the light filling lamp plate is adjustable to realize trapping of different types of medical media organisms.

5. The apparatus of claim 1,

the inner cavity connects worm unit to locate the inside upper end of outer wall unit, including side camera, side camera hood, go up the funnel, connect worm board, funnel, fan, inner chamber wall and inner cavity bottom down.

6. The apparatus of claim 2,

the corpse collecting box unit is arranged in the middle section of the outer wall unit and comprises a corpse collecting funnel, a corpse collecting box and an air suction fan.

7. The apparatus of claim 2,

the battery unit is arranged at the bottom of the outer wall unit and comprises a solar charging and discharging battery, a photovoltaic panel and a controller; the solar charging and discharging battery is a lithium iron phosphate battery or a lead-acid battery and is connected with the photovoltaic panel and the controller through a lead.

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