CN215767189U - Portable solar energy environmental monitoring device - Google Patents

Abstract

The application provides a portable solar energy environmental monitoring device, includes: the device comprises an equipment support, a telescopic rod, a wind speed and direction sensor, a sensor base, a solar photovoltaic panel, a Beidou navigation positioning instrument and a data storage controller, wherein a base used for fixing the telescopic rod on a handle of a bicycle or an electric vehicle is arranged at the lower end of the telescopic rod, and the equipment support is fixedly connected with the upper end of the telescopic rod through a nut; the wind speed and wind direction sensor is fixedly arranged at the top end of the equipment bracket; the sensor base, the solar photovoltaic panel, the Beidou navigation positioning instrument and the data storage controller are fixed on the equipment bracket through nuts; the data storage controller is in communication connection with the Beidou navigation positioning instrument, the sensor base, the wind speed sensor and the wind direction sensor, the environment monitoring device is carried on a bicycle or an electric vehicle, the height can be adjusted according to actual conditions in the moving observation process, the operation is flexible, the structure is simple, energy is saved, environment is protected, and the moving observation efficiency is improved.

Description

Portable solar energy environmental monitoring device

Technical Field

The application relates to the field of urban outdoor environment mobile observation methods, in particular to a portable solar environment monitoring device.

Background

Along with the urbanization process, natural underlying surface is replaced gradually to a large amount of building spaces and hard road surfaces, simultaneously, the emission of a large amount of automobile exhaust and the cold and hot load of building cause urban activities to discharge heat and increase greatly, so that the urban environment deteriorates gradually, the climatic phenomena such as urban heat island effect appear, the climatic phenomena can influence the daily travel and the heat environment comfort of urban residents, and then the life quality and the working efficiency of the urban residents are influenced, and therefore, the research on the urban outdoor environment is very reluctant.

The traditional method for researching urban environment is generally field monitoring, accurate and long-time observation data can be obtained through a meteorological station, and the rule of long-time change of urban outdoor thermal environment is researched based on long-time observation. Both fixed weather station observation and mobile observation are common methods for field monitoring. However, the fixed weather stations are required to be independently distributed and monitored, and the obtained data cannot accurately and sensitively reflect the thermal environment of the complex and diversified underlying surface. And the mobile observation can set a flexible and changeable measuring route, and can observe various different and representative underlying surfaces by means of a vehicle, so that more comprehensive thermal environment parameters can be obtained.

At present, for the mobile observation of the urban outdoor environment in a large range, a vehicle-mounted meteorological station is generally adopted for mobile observation; for the small-range mobile observation of the urban outdoor environment, the weather station is required to be held by hands to carry out the mobile observation on foot. However, the building layout in the city is complex and changeable, such as dense urban villages or mutually staggered and narrower lanes. In this type of urban outdoor environment, the vehicle cannot be used for carrying the observation, and the manual hiking observation consumes a lot of manpower.

Therefore, a new environment monitoring device is urgently needed to improve the problems existing in the moving observation of the urban outdoor environment.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a portable solar environment monitoring device which is suitable for a slow-moving vehicle and is used for improving the efficiency of moving observation of a small-range urban outdoor thermal environment.

In order to solve the above problem, the present application provides a portable solar energy environmental monitoring device, which is characterized by comprising: equipment support, telescopic link, wind speed and wind direction sensor, sensor base, solar photovoltaic board, big dipper navigation locater, data storage controller, wherein:

the lower end of the telescopic rod is provided with a base used for fixing the telescopic rod on a vehicle handle, and the equipment support is fixedly connected with the upper end of the telescopic rod through a nut; the vehicle is typically a bicycle or an electric vehicle;

the wind speed and wind direction sensor is fixedly arranged at the top end of the equipment bracket;

the sensor base, the solar photovoltaic panel, the Beidou navigation positioning instrument and the data storage controller are fixed on the equipment bracket through nuts;

and the data storage controller is in communication connection with the Beidou navigation positioning instrument, the sensor base, the wind speed sensor and the wind direction sensor.

Preferably, the sensor base, the Beidou navigation positioning instrument, the data storage controller and the solar photovoltaic panel are sequentially arranged below the wind speed and wind direction sensor from top to bottom.

Preferably, the sensor base, the Beidou navigation positioning instrument, the data storage controller and the solar photovoltaic panel are symmetrically arranged on two sides of the equipment support.

Preferably, still be provided with solar battery on the equipment support, solar battery set up in solar photovoltaic board below, and with sensor base, big dipper navigation locator, data storage controller, solar photovoltaic board electricity are connected.

Preferably, the base is provided with a base knob, and the base knob is used for adjusting the looseness degree of the base

Preferably, a temperature and humidity sensor and a gas sensor are fixed on the sensor base.

Preferably, a USB interface is arranged at the bottom of the data storage controller.

Compared with the prior art, the embodiment of the application has the advantages that:

the application provides a portable solar energy environmental monitoring device, includes: the device comprises an equipment support, a telescopic rod, a wind speed and direction sensor, a sensor base, a solar photovoltaic panel, a Beidou navigation positioning instrument and a data storage controller, wherein the lower end of the telescopic rod is provided with a base used for fixing the telescopic rod on a handle of a bicycle or an electric vehicle, and the equipment support is fixedly connected with the upper end of the telescopic rod through a nut; the wind speed and wind direction sensor is fixedly arranged at the top end of the equipment bracket; the sensor base, the solar photovoltaic panel, the Beidou navigation positioning instrument and the data storage controller are fixed on the equipment bracket through nuts; the data storage controller is in communication connection with the Beidou navigation positioning instrument, the sensor base, the wind speed sensor and the wind direction sensor, so that the environment monitoring device is mounted on a bicycle or an electric vehicle, on one hand, the height of the device can be adjusted according to actual conditions in the moving observation process, the operation is flexible, the structure is simple, and the moving observation efficiency is improved; on the other hand, the Beidou navigation positioning instrument, the data storage controller and the small mobile monitoring device are integrated, so that specific site monitoring data can be acquired and stored in real time, and observation and comparison and later-stage data statistical analysis are facilitated; and set up the solar photovoltaic board that can dismantle on equipment support, energy-concerving and environment-protective to can prolong the continuation of the journey, in order to improve the safety of monitoring data storage.

Drawings

In order to more clearly illustrate the detailed description of the present application or the technical solutions in the prior art, the drawings needed to be used in the detailed description of the present application or the prior art description will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic overall view of a portable solar environmental monitoring apparatus of the present application;

FIG. 2 is a left side view of a portable solar environmental monitoring apparatus of the present application;

FIG. 3 is a general schematic diagram of a data acquisition controller according to the present application;

FIG. 4 is a side view of the data acquisition controller of the present application;

fig. 5 is a top view of a data acquisition controller according to the present application.

Wherein the reference numerals are:

1-base, 2-base knob, 3-telescopic rod, 4-connecting through hole, 5-equipment support, 6-solar storage battery, 7-solar photovoltaic panel, 8-Beidou navigation locator, 9-data storage controller, 10-sensor base, 11-gas sensor, 12-temperature and humidity sensor, 13-wind speed and wind direction sensor, 14-threaded nut, 15-threaded nut, 16-base knob, 17-display screen, 18-control key, 19-threaded hole, 20-sensor data interface and 21-USB data port.

Detailed Description

The technical solutions of the present application will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and "disposed" are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; they may be mechanically coupled, directly coupled, indirectly coupled through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The inventor of the present application finds in the process of improvement and research and development of environmental monitoring technology that, a current slow-moving vehicle such as a shared bicycle or a shared automobile is taken as an environment-friendly vehicle, which is now favored by a large number of citizens in cities, and is adapted to an observation route with a small range and a complex road condition, and the small-range environmental monitoring can be improved to some extent by a chronic vehicle, but the market lacks an environmental monitoring device capable of being carried on the slow-moving vehicle such as a bicycle or an electric vehicle, and the environmental monitoring device directly applied to the chronic vehicle with the prior art has a complex structure and is difficult to apply.

Meanwhile, when a chronic vehicle is adopted to carry out movement observation on a planned route, a user cannot simultaneously use a navigation positioning system to carry out positioning data statistical analysis, and needs the navigation positioning system to position the monitored route and record movement observation data while carrying out environment monitoring, but in the prior art, a device integrating a monitoring device and a navigation positioning system instrument on the slow vehicle is not provided, so that the situation of separate navigation and detection exists in the movement observation; in addition, the current mobile meteorological station needs to be powered by a battery to maintain operation, and the mobile observation needs to consider the situation that the battery is powered off in the process of observation, so that the efficiency of the mobile observation and the continuity of data are seriously influenced on the whole. On this basis, combine the vehicle of crawling slowly, this application provides a portable solar energy environmental monitoring device.

Embodiment 1, with reference to fig. 1 and 2, the present embodiment provides a portable solar energy environmental monitoring device, which includes an equipment support 5, the equipment support 5 is fixed above a telescopic rod 3, in the embodiment, specifically, the bottom of the equipment bracket 5 is provided with a connecting through hole 4 for fixing, in practical use, the number of the connecting through holes 4 can be 2 or more than 2, the connecting through holes are fixed on the rod body at the middle of the telescopic rod 3 through two or more groups of bolts and nuts, the telescopic rod 3 can be of a 2-section structure or a multi-section structure, in this example, the monitoring device is fixed on the bicycle handlebar, the bicycle handlebar is usually 3cm, in this example, the height of the telescopic rod plus the bicycle body is preferably about 1.5m, the extension length of the telescopic rod is preferably 20-40cm, and the length of the telescopic rod can be adjusted according to actual conditions in actual use.

The telescopic link lower extreme is provided with base 1, and base 1 is used for being fixed in telescopic link 3 on the vehicle handle, and the lax degree of base can be adjusted through setting up base knob 2 on base 1, and of course, technical staff in the art can also adopt other regulation structures to install fixedly according to the above-mentioned inspiration, for example can adopt buckle formula structure or directly fix with the detachable nut. After fixing detection device on the handlebar through base 1, can adjust portable solar energy environmental monitoring device's height through pulling telescopic link 3 from top to bottom in a flexible way, reach the monitoring height of ideal, reach the high back of ideal, can fix the length of telescopic link, move the monitoring.

Removably mounting wind speed and direction sensors 13 on the top of the equipment rack 5, in this example, openings may be made in the top into which the wind speed and direction sensors 13 are inserted; also can set up at wind speed and wind direction sensor 13 and press the shell fragment, conveniently insert fixedly and dismantle fast through the mode of pressing, also can set up the screw at the top, set up the screw with 13 lower extremes of wind speed and wind direction sensor, through rotatory fixed.

The sensor base 10, the solar photovoltaic panel 7, the Beidou navigation positioning instrument 8 and the data storage controller 9 are fixed on the equipment bracket 5 through nuts, and the technical personnel in the field can also adopt other modes to fix according to the inspiration;

and the data storage controller 9 is in communication connection with the Beidou navigation positioning instrument 8, the sensor base 10 and the wind speed and wind direction sensor 13.

The Beidou navigation positioning instrument 8 can realize continuous environment testing and real-time positioning of various mobile position points, so that real-time position information provided by the Beidou navigation positioning instrument 8 is obtained in real time, and when environment information obtained by other sensors arranged on the wind speed and wind direction sensor 13 and the sensor base 10 is obtained, the position information and the environment information are used for storage, transmission and display.

Specifically, in this example, a data line is preset in the center of the equipment support 5, the data line and the connector are respectively led out from the sensor base 10, the wind speed and wind direction sensor 13, and the beidou navigation positioning instrument 8 to be connected, and the detection data is transmitted to the data storage controller 9 at preset time intervals, in this example, the preset time is preferably 10 seconds.

The bottom of the data storage controller 9 is provided with a USB interface 21, which can be used to copy data through the USB interface 21 in real time after the movement observation is finished.

Further, a wireless communication module, such as one of a wifi communication module, a bluetooth communication module, a near field communication module, and a ZigBee communication module, is provided on the data storage controller 9, and wirelessly transmits the location information and the environment information to the mobile phone terminal.

Further, sensor base 10, big dipper navigation locater 8, data storage controller 9, solar photovoltaic board 7 from last to setting gradually under 13 below wind speed and wind direction sensor to great, and under the heavier condition of weight at the solar module volume, can maintain the centrobaric stability of environment monitoring device as far as possible, in the in-service use, can be according to the mounting hole that sets up on equipment support 5 and the length of telescopic link 3, suitably adjust the position of solar photovoltaic board 7, thereby obtain better illumination effect, compromise the fixed demand of device installation simultaneously. In this example, the specific size of the solar photovoltaic panel 7 is chosen to be 15cm by 15cm, and the angle to the equipment rack 5 can be adjusted by screwing the solar panel.

Further, the sensor base 10, the Beidou navigation positioning instrument 8, the data storage controller 9 and the solar photovoltaic panel 7 are symmetrically arranged on two sides of the equipment support 5, so that the gravity center of the environment monitoring device is further balanced and is close to the axis of the telescopic rod 3 as much as possible.

Still be provided with solar battery 6 on equipment support 5, solar battery 6 sets up in the below of solar photovoltaic board 7 to be connected with sensor base 10, big dipper navigation locater 8, data storage controller 9, solar photovoltaic board 7 electricity, thereby the electric energy that storage solar photovoltaic board 7 produced, and supply power for sensor base 10, big dipper navigation locater 8, data storage controller 9. In this example, set up the power cord at solar battery 6's back and supply power for other devices respectively, in this application another embodiment, also can pass the power cord in advance and fix in the inside of equipment support 5, externally reserve the plug, walk the line through inside, reduce the circuit and leak outward, avoid the damage.

Data lines are led out from central shafts of the temperature and humidity sensor, the wind speed sensor and the wind direction sensor and are connected with a data interface 20 of a back sensor of the data storage controller 9, and monitoring data are transmitted to the data storage controller 9 every 5 seconds.

In this example, the sensor base 10 is provided with a fixing hole, and the gas sensor 11 and the temperature/humidity sensor 12 are fixed to the sensor base 10 by a base knob 16 provided below the fixing hole. In actual use, more sensor bases 10 may be provided as needed to provide more sensors or other environmental monitoring data. In the present example, the gas sensor 11 is used to monitor the concentration of CO2, CO and PM2.5 in the environment, and a GT-1000-B4 multichannel gas sensor or TR-76Ui gas sensor is adopted, so that the skilled person can select and purchase the gas sensor from the market according to the cost requirement; the temperature and humidity sensor 12 is used for monitoring the temperature and humidity of air, and can be purchased for use as required, in this example, a HOBO series sensor (HOBO-U23-002) is adopted, and a humidity sensor with other signals in the market can be selected according to actual cost requirements.

Further, a display screen in communication connection with the data storage controller 9 is arranged on the data storage controller 9 or the equipment support 5 and the telescopic rod 3, and the acquired position information and the acquired environment information are displayed at the same time.

Further, in this example, referring to fig. 3, 4 and 5, a base threaded hole 19 is formed in the data storage controller 9, the data storage controller is fixed on the equipment support 5 through a screw and a threaded nut 15, and a display screen 17 is formed on the data storage controller 9, so that data transmitted back by the sensor can be displayed in real time. When observing, adjust the telescopic link and make weather station reach the high of ideal monitoring, the observer can adjust display screen 17 to the sight, observes the data change condition of removing the observation in real time.

A sensor data interface 20 is arranged at the back of the data storage controller 9 and is used for connecting the sensor base and the wind speed and direction sensor 13 to acquire data of each sensor.

The data storage controller 9 has the functions of storing sensor data and controlling the opening and closing of the sensor, the control key 18 is arranged on the data storage controller 9, and the control key 18 controls the opening and closing of the data storage controller 9 and other sensors, so that electric energy is saved.

The above description is a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made to the above embodiment in accordance with the technical spirit of the present invention are within the scope of the present invention.

Adopt above-mentioned system to handle high turbidity waste water, have following advantage:

1. the telescopic rod is used for fixing the equipment support, and the lower end of the telescopic rod is provided with the base structure which can be fixed on a slow-moving vehicle and can be fixed on the slow-moving vehicle, so that the height of the device can be adjusted according to actual conditions in the moving observation process, the operation is flexible, the structure is simple, the moving observation efficiency is improved, and the observation comfort level can be improved by adjusting the position of the display screen;

2. the Beidou navigation positioning instrument, the data storage controller and the small mobile monitoring device are integrated, so that specific site monitoring data can be acquired and stored in real time, and observation and comparison and later data statistical analysis are facilitated;

3. the detachable solar photovoltaic panel is arranged on the equipment support, so that the energy is saved, the environment is protected, the endurance can be prolonged, and the safety of monitoring data storage is improved;

4. the sensor is disassembled and assembled, and all sensors can be fixedly installed and position adjusted according to actual needs.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. A portable solar energy environmental monitoring device, comprising: equipment support, telescopic link, wind speed and wind direction sensor, sensor base, solar photovoltaic board, big dipper navigation locater, data storage controller, wherein:

the lower end of the telescopic rod is provided with a base used for fixing the telescopic rod on a vehicle handle, and the equipment support is fixedly connected with the upper end of the telescopic rod through a nut;

the wind speed and wind direction sensor is fixedly arranged at the top end of the equipment bracket;

the sensor base, the solar photovoltaic panel, the Beidou navigation positioning instrument and the data storage controller are fixed on the equipment bracket through nuts;

and the data storage controller is in communication connection with the Beidou navigation positioning instrument, the sensor base, the wind speed sensor and the wind direction sensor.

2. The portable solar environmental monitoring device of claim 1, wherein the sensor base, the Beidou navigation and positioning instrument, the data storage controller and the solar photovoltaic panel are sequentially arranged below the wind speed and wind direction sensor from top to bottom.

3. The portable solar environmental monitoring device of claim 1, wherein the sensor base, the Beidou navigation positioning instrument, the data storage controller and the solar photovoltaic panel are symmetrically arranged on two sides of the equipment support.

4. The portable solar energy environmental monitoring device according to claim 1, wherein a solar energy storage battery is further disposed on the equipment support, and the solar energy storage battery is disposed below the solar photovoltaic panel and electrically connected to the sensor base, the beidou navigation positioning instrument, the data storage controller and the solar photovoltaic panel.

5. The portable solar environmental monitoring device of claim 1, wherein a base knob is disposed on the base for adjusting a slack of the base.

6. The portable solar energy environmental monitoring device of claim 1, wherein a temperature and humidity sensor and a gas sensor are fixed on the sensor base.

7. The portable solar environmental monitoring device of claim 1, wherein a USB interface is provided at the bottom of the data storage controller.

8. The portable solar environmental monitoring device of claim 1, wherein the data storage controller is backed with a sensor data interface.

9. The portable solar environmental monitoring device of claim 1, wherein a display screen is disposed on the data storage controller.

10. The portable solar energy environmental monitoring device of claim 1, wherein a switch is disposed on the data storage controller for turning on and off the environmental monitoring device.

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