CN219757395U - Air quality directional monitor - Google Patents

Abstract

An air quality directional monitor, wherein the main unit is equipped with control module, is equipped with wind direction wind speed sensor, particulate matter sampling head, gas sampling head, activity camera on the main unit, and the main unit passes through a plurality of moving wheels to be set up on the circular orbit of below. The wind direction and wind speed sensor can monitor the external airflow direction in real time while collecting various air pollution components through the particulate matter sampling head and the gas sampling head, and can also drive the moving wheel to enable the main unit to revolve along the circular orbit, so that different concentration parameters are detected at different positions in the revolution region, the region with larger concentration is judged through the calculation module according to the concentration components displayed by the sampling head, then the movable camera is controlled to rotate for directional detection, the direction of the pollution component source can be accurately judged under various occasions, the situation that workers arrive at the site to examine the region with specific direction is facilitated, and the pollution problem is ensured to be properly solved.

Description

Air quality directional monitor

Technical Field

The utility model belongs to the technical field of air quality detection, and particularly relates to an air quality orientation monitor.

Background

Along with the development of domestic industrial technology, environmental protection requirement standards about air quality are more and more strict, the air quality reflects the concentration of polluted dust and harmful chemical components in the air and is influenced by various pollution factors, so that corresponding air quality detection devices are developed at the present stage so as to adapt to air detection operations of different pollution components.

However, in the current stage of air quality operation, besides the detection of the site environment, the source of pollution problem needs to be examined, but the traditional air quality detection device can only effectively analyze the pollution component of the target area, but cannot judge the position of the source of the pollution component, cannot conduct targeted examination, and is unfavorable for properly solving the pollution problem, so a new technical scheme is needed to be perfected.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the air quality directional monitor, which can effectively analyze the air pollution components in the target area and accurately judge the position of the pollution component source, thereby being beneficial to the targeted investigation of staff and ensuring that the pollution problem is properly solved.

The utility model is implemented by the following technical scheme: the air quality directional monitor comprises a main unit, wherein a control module is arranged in the main unit, a wind direction and wind speed sensor is arranged on the main unit, a particulate matter sampling head is arranged at the top of the wind direction and wind speed sensor, a gas sampling head is fixedly arranged at the top of the main unit, a movable camera is arranged at the top of the main unit through a bracket, and the wind direction and wind speed sensor, the particulate matter sampling head, the gas sampling head and the movable camera are respectively and electrically connected with the control module; the bottom of the main unit is provided with a plurality of moving wheels, the moving wheels are driven by a motor device, and the main unit is arranged on a circular track below the moving wheels through a plurality of moving wheels.

Further, the track profile of the circular track in a top view is circular, and the axis of the moving wheel is intersected with the axis of the circular track.

Further, the motor device is arranged in the main unit, and the motor device is a servo motor.

Furthermore, a temperature and humidity sensor is fixedly arranged at the top of the main unit.

Furthermore, the top of the main unit is fixedly provided with a noise microphone.

Further, a touch screen is arranged on the side wall of the main unit.

Further, a heat dissipation window is arranged on the side wall of the main unit, and the gap between the heat dissipation windows enables the area where the control module is located to be communicated with the outside.

The beneficial effects of the utility model are as follows: the particle sampling head and the gas sampling head collect various air pollution components, the wind direction and the wind speed sensor can monitor the external airflow direction in real time, when the sampling head detects pollutants with the concentration exceeding the standard, the calculation module can control the movable camera to record the video according to the detected wind direction of the wind direction and the wind speed sensor, and under the common monitoring of the wind direction and the wind speed sensor and the movable camera, the source of the pollution components is accurately judged; when the wind intensity is insufficient, the moving wheels can be driven to enable the main unit to perform repeated revolution along the circular orbit, so that different concentration parameters are detected at different positions in the revolution region, the region with larger concentration is judged through the calculation module according to different concentration components displayed by the sampling head, then the movable camera is controlled to rotate for directional detection, the direction of the source of the pollution component can be accurately judged in various occasions, the staff can conveniently reach the site to check the region in a specific direction, and the pollution problem is ensured to be properly solved.

Drawings

FIG. 1 is a schematic diagram showing an assembly structure of a main unit and components according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a host unit and a structure according to an embodiment of the utility model.

In the figure: 10-main unit, 10 a-movable wheel, 11-wind direction wind speed sensor, 12-particulate matter sampling head, 13-movable camera, 14-gas sampling head, 15-noise microphone, 16-temperature and humidity sensor, 17-heat dissipation window, 18-touch screen, 20-circular track.

Detailed Description

The utility model is described in further detail below with reference to the drawings of the specification.

1-2, an air quality directional monitor comprises a main unit 10, wherein a control module is arranged in the main unit 10, a wind direction and wind speed sensor 11 is arranged on the main unit 10, and a particulate matter sampling head 12 is arranged at the top of the wind direction and wind speed sensor 11, so that the wind direction detection airflow and the blown detection particulate matters are located in the same adjacent area as much as possible, and the accuracy of direction position discrimination is improved; the top of the main unit 10 is fixedly provided with a gas sampling head 14, the top of the main unit 10 is provided with a movable camera 13 through a bracket, and the wind direction and wind speed sensor 11, the particulate matter sampling head 12, the gas sampling head 14 and the movable camera 13 are respectively and electrically connected with a control module, so that the movable camera 13 can timely regulate and control the shooting direction according to the wind direction and wind speed sensor 11 and various sampling head signals; the bottom of the main unit 10 is provided with a plurality of moving wheels 10a, the moving wheels 10a are driven by a motor device, and the main unit 10 is arranged on a circular orbit 20 below the main unit 10 through the plurality of moving wheels, so that various sensors on the main unit 10 can acquire concentration indexes of different areas on the revolution track of the circular orbit 20.

In this embodiment, during operation, the main unit 10 and the circular track 20 are disposed in a target area where environmental detection is required, dust concentration and chemical pollution components in the air are collected by the particulate matter sampling head 12 and the gas sampling head 14, when the detected pollution component concentration exceeds the standard, if the environmental wind speed is larger at this time, the wind speed detection module in the wind direction and wind speed sensor 11 feeds back to the control system to keep the moving wheel 10a stationary, at this time, the real-time wind direction can be determined by blowing the swing joint of the wind direction and wind speed sensor 11 with the larger wind force, and then the calculation module can control the movable camera 13 to perform video recording (for example, detecting the emission state of a remote industrial chimney or the pollution state of a river) according to the detected wind direction of the wind direction and wind speed sensor 11, and accurately determine the source of the pollution components under the common monitoring of the wind direction and wind speed sensor 11 and the movable camera 13;

when the sampling heads detect that the concentration of the pollutant component exceeds the standard and the wind direction and wind speed sensor 11 detects that the wind index is weaker, each sampling head cannot judge the source of the pollutant at the static state, the wind direction and wind speed sensor 11 can feed back wind signals to the control module, so that the control module drives the moving wheel 10a to enable the main unit 10 to perform repeated revolution along the circular orbit 20, and as the concentration index of the chemical gas and dust is reduced along with the increase of the diffusion distance,

therefore, different concentration parameters can be detected at different positions in the revolution region of the main unit 10, different concentration components at different positions of the revolution are displayed according to the particulate matter sampling head 12 and the gas sampling head 14, then the region with larger concentration is judged through the calculation module, the movable camera 13 is controlled to rotate to the direction with larger concentration for directional detection (the movable wheel 10a can be synchronously closed after the pollution direction is determined), and a worker can remotely analyze according to the shooting position of the movable camera 13 (such as detecting the emission state of a remote industrial chimney or the pollution state of a river), so that the position of the source of the pollution component can be accurately judged in various occasions, the investigation of the region with specific direction after the worker arrives at the site is facilitated, and the pollution problem is well solved.

In this embodiment, the track profile of the circular track 20 in the top view is circular, so that an accurate track reference standard is provided for each sampling area under revolution, the axis of the moving wheel 10a intersects with the axis of the circular track 20, and the inner wall of the moving wheel 10a can be accurately attached to the outer wall of the circular track 20 by setting the axial direction of the moving wheel 10a to face the middle of the circular track 20, so that the revolution track of the main unit 10 can be accurately adapted to the standard circular shape of the circular track 20.

In the present embodiment, the motor device is disposed in the main unit 10, and the motor device is a type of servo motor.

In this embodiment, the temperature and humidity sensor 16 is fixedly mounted on the top of the main unit 10, so as to perform temperature and humidity detection on a target area, and can detect temperature and humidity indexes of different revolution directions under the combined action of the main unit and the circular track 20, so that the prescribed position of a humidity or temperature influence source can be accurately judged, and then the movable camera 13 is mobilized for monitoring, so that the comprehensive monitoring function of the monitor on the environment is further ensured.

In this embodiment, the noise microphone 15 is fixedly mounted on the top of the main unit 10, so that noise detection is performed on a target area, and the noise intensities of different revolution directions can be detected under the combined action of the noise microphone and the circular orbit 20, so that the position prescribed by a noise source can be accurately judged, and then the movable camera 13 is mobilized for monitoring, so that the overall monitoring function of the monitor on the environment is further ensured.

In this embodiment, the side wall of the main unit 10 is provided with a touch screen 18, so that it is beneficial for monitoring personnel to call record data at any time according to the touch screen 18 after arriving at the site, so as to quickly check the direction of the pollution source.

In this embodiment, the side wall of the main unit 10 is provided with a heat dissipation window 17, and the area where the control module is located is communicated with the outside through the gap between the heat dissipation windows 17, so as to ensure that the internal computing module sufficiently dissipates heat in a ventilation state, and ensure the stability of long-time operation.

The above description is only of a preferred embodiment of the present utility model and is not intended to limit the utility model in any way, and other modifications of the utility model in equivalent form can be made by those skilled in the art without departing from the scope of the utility model as defined in the appended claims.

Claims (7)

1. The utility model provides an air quality orientation monitor, includes main unit, its characterized in that: the device comprises a main unit, a control module, a wind direction and wind speed sensor, a particle sampling head, a gas sampling head, a movable camera, a wind direction and wind speed sensor, a particle sampling head, a gas sampling head and a movable camera, wherein the control module is arranged in the main unit; the bottom of the main unit is provided with a plurality of moving wheels, the moving wheels are driven by a motor device, and the main unit is arranged on a circular track below the moving wheels through a plurality of moving wheels.

2. The air quality orientation monitor of claim 1 wherein: the track profile of the circular track in a top view is circular, and the axis of the moving wheel is intersected with the axis of the circular track.

3. The air quality orientation monitor of claim 1 wherein: the motor device is arranged in the main unit, and the type of the motor device is a servo motor.

4. The air quality orientation monitor of claim 1 wherein: and the top of the main unit is fixedly provided with a temperature and humidity sensor.

5. The air quality orientation monitor of claim 1 wherein: and the top of the main unit is fixedly provided with a noise microphone.

6. The air quality orientation monitor of claim 1 wherein: and a touch screen is arranged on the side wall of the main unit.

7. The air quality orientation monitor of claim 1 wherein: and the side wall of the main unit is provided with a radiating window, and the gap of the radiating window enables the area where the control module is to be communicated with the outside.