CN212483059U - Device for vertically monitoring atmospheric environment - Google Patents

Abstract

The utility model discloses a device for vertically monitoring atmospheric environment, which comprises a mobile vehicle, wherein a motor switch, an air suction pump switch, a motor, a sampling port, an air suction pump and a storage battery are arranged inside the mobile vehicle; the motor is arranged above the sampling port, and the sampling port is arranged above the air suction pump; one end of the sampling port is connected with a high-altitude sampling pipe, and the other end of the sampling port is connected to an inlet of the air suction pump through a pipeline; the outlet of the air suction pump is provided with a detector air inlet; the air suction pump and the motor are electrically connected with the storage battery pack; a solar panel is arranged on one side of the top end of the moving vehicle and is electrically connected with the storage battery pack; the other side of the top end is provided with a first hole and a second hole, and the elevation ruler and the high-altitude sampling pipe are connected to two sides of a motor in the moving vehicle through the first hole and the second hole respectively; the top end of the elevation ruler is provided with a traction balloon, and the upper part of the elevation ruler is connected with the high-altitude sampling pipe through a light bracket; the high-altitude sampling pipe is of a hollow structure, and the top end of the high-altitude sampling pipe is communicated with the atmosphere.

Description

Device for vertically monitoring atmospheric environment

Technical Field

The invention belongs to the technical field of environmental monitoring, and particularly relates to a device for vertically monitoring an atmospheric environment.

Background

With the rapid development of economy in China, environmental pollution caused by industrialization is more and more severe, and particularly, the problem of atmospheric pollution is increasingly prominent. Environmental monitoring is a key step of pollution prevention, most of the existing atmospheric environmental monitoring methods mainly adopt ground monitoring, and adopt forms such as fixed stations and mobile navigation vehicles, and no good monitoring technology exists for vertical high-altitude pollutants. Although unmanned aerial vehicle can carry on the sensor and carry out high altitude monitoring, the sensor precision is lower, the monitoring factor is restricted, can't really feed back comprehensively and receive the contaminated air quality, and unmanned aerial vehicle price is higher, and the use all has certain requirement to personnel and place, and the range of application is little, and the prevalence is lower, uses unmanned aerial vehicle in the chemical industry garden, and the security lacks the guarantee.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the technical problem of providing a device for vertically monitoring an atmospheric environment aiming at the defects of the prior art.

The invention idea is as follows: the sampling tube is driven to the air by the traction balloon, the electromagnetic valves with wireless communication functions are arranged on the sampling tube at equal intervals, air samples with required vertical heights are collected through remote control, and atmospheric environment quality is comprehensively mastered through real-time online monitoring of high-precision monitoring equipment.

In order to solve the technical problem, the invention discloses a device for vertically monitoring an atmospheric environment, which comprises a moving vehicle 20, a traction balloon 1, an elevation scale 2, a light bracket 3, a high-altitude sampling tube 4, a motor switch 5, an air suction pump switch 6, a motor 7, a sampling port 8, an air suction pump 9, a detector air inlet 10, a solar panel 11 and a storage battery pack 12.

Wherein, a motor switch 5, an air suction pump switch 6, a motor 7, a sampling port 8, an air suction pump 9, a detector air inlet 10 and a storage battery pack 12 are arranged in the moving vehicle 20; wherein, the motor switch 5 is arranged on the surface of the motor 7, and the getter pump switch 6 is arranged on the surface of the getter pump 9.

Wherein, the motor 7 is arranged above the sampling port 8, and the sampling port 8 is arranged above the air suction pump 9; the getter pump 9 and the battery pack 12 can be placed directly at the bottom inside the trolley 20; one end of the sampling port 8 is connected with a high-altitude sampling pipe 4, the high-altitude sampling pipe 4 is wound on the motor 7, and the other end of the high-altitude sampling pipe is connected to an inlet of the air suction pump 9, namely an air suction port, through a pipeline; wherein, the outlet of the getter pump 9 is provided with a detector gas inlet 10, and the detector gas inlet 10 penetrates through the side wall of the mobile vehicle 20; the air suction pump 9 and the motor 7 are electrically connected with the storage battery pack 12, and the electric energy is supplied to the air suction pump 9 and the motor 7 through the storage battery 12; the air suction pump 9 is used for providing negative pressure collecting gas and sending the negative pressure collecting gas to monitoring equipment for measurement.

Wherein, one side of the top end of the moving vehicle 20 is provided with a solar panel 11 which is electrically connected with the storage battery 12 inside the moving vehicle 20; a first hole opening and a second hole opening are formed in the other side of the top end of the elevation ruler 2, and the high-altitude sampling pipe 4 is wound on the two sides of the motor 7 in the moving vehicle 20 through the first hole opening and the second hole opening respectively; the elevation ruler 2 is used for accurate positioning during sampling; the top end of the elevation ruler 2 is provided with a traction balloon 1 for drawing the high-altitude sampling tube 4 to different heights, and the upper part of the elevation ruler 2 is connected with the high-altitude sampling tube 4 through a light bracket 3; the high-altitude sampling pipe 4 is of a hollow structure, and the top end of the high-altitude sampling pipe is communicated with the atmosphere.

Wherein, elevation chi 2 be the PVC plastics material, high altitude sampling pipe 4 is the teflon pipe material, light support 3 is the nylon material, selected material can effectively ensure that the helium balloon can provide certain holding power when promoting elevation chi 2 to mention high altitude sampling pipe 4 together.

Wherein, the solar panel 11 is obliquely arranged and is electrically connected with the storage battery 12 for charging.

Wherein, a partition board can be arranged in the moving vehicle 20 for placing the motor 7, or directly fixing the motor 7 on the side wall of the moving vehicle 20.

The traction balloon 1 is made of natural latex and a proper amount of compounding agents, and traction balloons with different specifications can be selected and purchased according to actual needs.

Wherein, locomotive 20 be the cuboid structure, its bottom is equipped with the wheel, preferred 4 wheels to the realization removes the sampling.

The motor 7 is a double-shaft motor, and the two sides of the motor 7 are provided with take-up and pay-off discs which are respectively used for surrounding the elevation ruler 2 and the high-altitude sampling pipe 4; namely, one end of the sampling port 8 is wound on a wire coil on the side connected with the motor 7 through the high-altitude sampling pipe 4.

Wherein, the inside of the moving vehicle 20 is also provided with a controller 17; the motor 7 and the air suction pump 9 are electrically connected with the storage battery pack 12 through a controller 17; the solar panel 11 is electrically connected to the battery pack 12 through the controller 17.

Wherein, the inner diameter of the hollow structure of the high-altitude sampling tube 4 is 0.5-2 cm.

Wherein, the scale range of the elevation ruler 2 is 0-100 m.

Wherein, the sampling port 8 is higher than the getter pump 9, and the vertical height between the sampling port 8 and the getter pump 9 is 0.3-1.2 m.

When the aerial sampling device needs to work, the motor 7 is controlled through a forward switch of the motor, and the elevation ruler 2 and the aerial sampling tube 4 are synchronously released under the action of the traction balloon 1 and the light bracket 3, so that the aerial sampling tube 4 reaches the required height; when the height reaches a determined height, the air suction pump switch 6 is turned on, the air suction pump 9 is turned on, so that air is sucked into the sampling port 8 from the top of the high-altitude sampling pipe, passes through the inlet of the air suction pump 9, and finally enters the detector through the detector air inlet 10 at the outlet of the air suction pump 9 for detection.

When the work is finished, the suction pump switch 6 is turned off, namely the suction pump 9 is turned off, and the motor 7 is controlled through a reverse switch of the motor to retract the elevation ruler 2 and the high-altitude sampling pipe 4.

Preferably, a chassis 16 is further disposed around the first opening on the top of the moving vehicle 20, and a protractor 15 is disposed on the chassis 16 for rotating the chassis 16 in non-calm wind conditions to observe the inclination angle of the level gauge 2 and estimate the actual height of the sample. Wherein the base plate 16 is hollow and has an inner diameter greater than the radius of the first aperture. Wherein the chassis is fixed and the protractor 15 is rotatable.

Preferably, the device further comprises a helium tank 13, a pressure reducing valve 14 is arranged at the opening and closing port of the helium tank, and the helium tank 13 can be directly arranged inside the moving vehicle 20 and used for manually inflating the traction balloon 1.

Has the advantages that: compared with the prior art, the utility model has the advantages of as follows:

the utility model provides a pair of a device for atmospheric environment vertical monitoring can be applied to the monitoring vehicle of navigating and fixed website, especially emergency monitoring under the emergency environment incident, and cooperation monitoring facilities is in order to solve that traditional nearly ground monitoring height is limited, and the sample is gathered in the high altitude impaired, the inefficiency scheduling problem. The device can realize the sampling of different vertical heights, convenient operation, and the application scene is many, can be used widely, and adopts recoverable helium balloon security height.

Drawings

The foregoing and/or other advantages of the invention will become further apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic structural diagram of a device for atmospheric environment vertical monitoring in an operating state according to an embodiment of the present invention.

Fig. 2 is a top view of the chassis.

Fig. 3 is a schematic structural diagram of the device in a non-working state.

Fig. 4 is a top view of the device.

FIG. 5 is a diagram of electrical connections of the device.

Description of the labeling: 0-a dolly; 1-a traction balloon; 2-a height scale; 3-a light scaffold; 4-high altitude sampling pipe; 5, a motor switch; 6-getter pump switch; 7-a motor; 8-a sampling port; 9-a getter pump; 10-detector air inlet; 11-a solar panel; 12-a battery pack; 13-helium tank; 14-a pressure relief valve; 15-a protractor; 16-a chassis; 17-a controller; 18-a first orifice; 19-second orifice.

Detailed Description

As shown in fig. 1, a device for vertically monitoring an atmospheric environment comprises a moving vehicle 20, a traction balloon 1, a height scale 2, a light bracket 3 and a high-altitude sampling tube 4; a motor switch 5; a getter pump switch 6; the device comprises a motor 7, a sampling port 8, a suction pump 9, a detector air inlet 10, a solar panel 11, a storage battery pack 12, a helium bottle 13, a pressure reducing valve 14, a protractor 15, a chassis 16 and a controller 17.

Wherein, a motor switch 5, an air suction pump switch 6, a motor 7 (a new Yongtai 12V motor), a sampling port 8, an air suction pump 9 (Daertuo DET-TZ-1), a storage battery pack 12 (a daytime 150AH storage battery) and a helium bottle 13 are arranged in the moving vehicle 20; wherein, the motor switch 5 is arranged on the surface of the motor 7, and the getter pump switch 6 is arranged on the surface of the getter pump 9; wherein, the motor 7 is arranged on the side wall of the moving vehicle; the getter pump 9 and the battery pack 12 are placed directly at the bottom inside the trolley 20.

Wherein, the sampling port 8 is hollow cylinder, is stainless steel material, and motor 7 locates the top of sampling port 8, and sampling port 8 locates the top of aspirator pump 9, and sampling port 8 is apart from aspirator pump 9 vertical height and is 0.6 m. One end of the sampling port 8 is connected with a high-altitude sampling pipe 4, the high-altitude sampling pipe 4 is wound on the motor 7, the other end of the high-altitude sampling pipe is connected to an inlet of the air suction pump 9, namely an air suction port, through a pipeline, and the joint of the sampling port 8 is screwed down through a screw; wherein the outlet of the getter pump 9 is provided with a detector inlet 10, said detector inlet 10 passing through the side wall of the mobile cart 20 for connection to a PTR-TOF monitoring instrument external to the cart for gas detection; the air suction pump 9 and the motor 7 are respectively electrically connected with the storage battery pack 12 through a controller 17 (controller day sun DMD-30A), and the electric energy is supplied to the air suction pump and the motor through the storage battery 12; the air suction pump 9 is used for providing negative pressure collecting gas and sending the negative pressure collecting gas to monitoring equipment for testing. The opening and closing port of the helium tank is provided with a pressure reducing valve 14, and the helium tank 13 is directly arranged inside the moving vehicle 20 and used for manually inflating the traction balloon 1.

Wherein, one side at the top of locomotive 20 is equipped with solar panel 11 (day sun solar panel 400W), and solar panel 11 relies on the support frame slope to place, and it charges for storage battery 12 through controller 17 electric connection, and wherein the electric connection of each part is as shown in fig. 5.

Wherein, the other side of the top end of the moving vehicle 20 is provided with a first orifice 1810 cm, a second orifice 1920 cm, a height scale 2, a light bracket 3 and a high altitude sampling pipe 4; wherein, the elevation ruler 2 and the high altitude sampling pipe 4 are respectively wound and connected to the take-up reels at two sides of the double-shaft motor 7 inside the moving vehicle 20 through a first hole and a second hole (the top views of the first hole 18 and the second hole are shown in fig. 4); wherein, the elevation ruler 2 is a great wall precision tape 100m and is used for precise positioning during sampling; wherein, the upper part of the elevation ruler 2 is connected with a high-altitude sampling pipe 4 through a light bracket 3; wherein, the top end of the elevation ruler 2 is provided with a traction balloon 1, namely a helium balloon, which is processed by natural latex and a proper amount of compounding agent and is used for drawing the high-altitude sampling tube 4 to different heights; the high-altitude sampling tube 4 is of a hollow structure with the inner diameter of 1cm, and the top end of the high-altitude sampling tube is communicated with the atmosphere.

Wherein, elevation chi 2 be the PVC plastics material, high altitude sampling pipe 4 is the OUPLI teflon pipe of 100 meters long, and the wall thickness is 1mm, light support 3 is the nylon ribbon, and the material of selection can effectively ensure that the helium balloon can provide certain holding power when promoting elevation chi 2 to mention high altitude sampling pipe 4 together.

Wherein, a chassis 16 is further arranged around the first opening at the top of the moving vehicle 20, as shown in fig. 2, a protractor 15 is placed on the chassis 16, and is used for rotating the chassis 16 under non-calm wind conditions to observe the inclination angle of the elevation scale 2 and estimate the actual sampling height. The base plate 16 is hollow, and the inner diameter of the base plate is larger than the radius of the first hole; wherein the chassis is fixed and the protractor 15 is rotatable.

Wherein, locomotive 20 be the cuboid structure, its bottom is equipped with selects 4 wheels to realize removing the sampling.

The device is used for atmospheric environment navigation monitoring of a park, when the device needs to work, the motor 7 is controlled through a forward switch of the motor to synchronously release the elevation ruler 2 and the high-altitude sampling tube 4, and the vertical height is 20 m; and then the air suction pump 9 is opened to suck air, so that the air is sucked into the high-altitude sampling pipe 4 from the top of the high-altitude sampling pipe, passes through the sampling port 8 and is conveyed to the inlet of the air suction pump 9 through a pipeline, and is introduced into the outlet of the air suction pump, namely the air inlet 10 of the detector, and then is detected in the detector connected with the air suction pump. When gas is sucked in, a part of the gas needs to be sucked, and then the gas inlet 10 of the detector is connected to the detector connected with the gas inlet for detection.

When the work is finished, as shown in fig. 3, the suction pump 9 is turned off, and the motor 7 is controlled by a reverse switch of the motor to retract the height ruler 2 and the high-altitude sampling pipe 4.

The present invention provides a method and a device for vertical atmospheric environment monitoring, and a method and a device for implementing the method and the device for vertical atmospheric environment monitoring are numerous, and the above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention. All the components not specified in the present embodiment can be realized by the prior art.

Claims (10)

1. A device for vertically monitoring an atmospheric environment is characterized by comprising a moving vehicle (20), a traction balloon (1), an elevation ruler (2), a light support (3), a high-altitude sampling tube (4), a motor switch (5), an air suction pump switch (6), a motor (7), a sampling port (8), an air suction pump (9), a detector air inlet (10), a solar panel (11) and a storage battery pack (12);

wherein, a motor switch (5), an air suction pump switch (6), a motor (7), a sampling port (8), an air suction pump (9), a detector air inlet (10) and a storage battery pack (12) are arranged in the moving vehicle (20); wherein, the motor switch (5) is arranged on the surface of the motor (7); the getter pump switch (6) is arranged on the surface of the getter pump (9);

the motor (7) is arranged above the sampling port (8), and the sampling port (8) is arranged above the air suction pump (9); one end of the sampling port (8) is connected with a high-altitude sampling pipe (4), the high-altitude sampling pipe (4) is wound on the motor (7), and the other end of the high-altitude sampling pipe is connected to an inlet of the air suction pump (9) through a pipeline; wherein, the outlet of the air suction pump (9) is provided with a detector air inlet (10), and the detector air inlet (10) passes through the side wall of the mobile vehicle (20); wherein, the air suction pump (9) and the motor (7) are electrically connected with the storage battery pack (12);

wherein, one side of the top end of the moving vehicle (20) is provided with a solar panel (11) which is electrically connected with the storage battery pack (12); a first hole opening and a second hole opening are formed in the other side of the top end of the movable trolley, and the elevation ruler (2) and the high-altitude sampling pipe (4) are wound on the two sides of a motor (7) in the movable trolley (20) through the first hole opening and the second hole opening respectively; wherein, the top end of the elevation ruler (2) is provided with a traction balloon (1), and the upper part of the elevation ruler (2) is connected with a high-altitude sampling tube (4) through a light bracket (3); the high-altitude sampling pipe (4) is of a hollow structure, and the top end of the high-altitude sampling pipe is communicated with the atmosphere.

2. An apparatus for vertical atmospheric monitoring as defined in claim 1 in which the bottom of the mobile carriage (20) is provided with wheels.

3. The device for vertically monitoring the atmospheric environment according to claim 1, wherein the motor (7) is a double-shaft motor, and take-up and pay-off reels are arranged on two sides of the motor (7); one end of the sampling port (8) is wound on a wire coil on one side of the motor (7) through the high-altitude sampling pipe (4).

4. An apparatus for vertical atmospheric monitoring according to claim 1, characterised in that the mobile carriage (20) is provided with a controller (17) inside; the motor (7) and the air suction pump (9) are electrically connected with the storage battery pack (12) through a controller (17); the solar panel (11) is electrically connected with the storage battery pack (12) through the controller (17).

5. The device for vertical atmospheric monitoring according to claim 1, characterised in that the hollow structure of the aerial sampling tube (4) has an internal diameter of 0.5-2 cm.

6. An apparatus for vertical atmospheric monitoring according to claim 1, wherein the scale of the level ruler (2) is in the range of 0-100 m.

7. A device for vertical atmospheric monitoring according to claim 1, characterised in that the sampling port (8) is higher than the getter pump (9), the sampling port (8) being at a vertical height of 0.3-1.2m from the getter pump (9).

8. The device for vertically monitoring the atmospheric environment according to claim 1, characterized in that when in need of work, the motor (7) is controlled through the motor switch (5), and the elevation ruler (2) and the high-altitude sampling tube (4) are synchronously released under the action of the traction balloon (1) and the light bracket (3), when reaching a certain height, the suction pump switch (6) is turned on, the suction pump (9) is turned on, so that air is sucked into the sampling port (8) from the top of the high-altitude sampling tube (4), conveyed to the inlet of the suction pump (9) through a pipeline, and finally enters the detector through the detector air inlet (10) of the outlet of the suction pump (9) for detection; when the work is finished, the air suction pump (9) is closed by closing the air suction pump switch (6), and the motor (7) is controlled by the motor switch (5) to retract the elevation ruler (2) and the high-altitude sampling pipe (4).

9. The vertical atmospheric monitoring device according to claim 1, wherein the mobile vehicle (20) is further provided with a bottom plate (16) around the first opening on the top, a protractor (15) is placed on the bottom plate (16), and the bottom plate (16) is hollow and has an inner diameter larger than the radius of the first opening.

10. An apparatus for vertical atmospheric monitoring according to claim 1, characterised in that the apparatus further comprises a helium tank (13), the opening and closing of which is provided with a pressure reducing valve (14).

Images