CN212207264U

CN212207264U - Energy-concerving and environment-protective air monitoring device

Info

Publication number: CN212207264U
Application number: CN202020574709.3U
Authority: CN
Inventors: 王海珠
Original assignee: Shandong Yuanfeng Environmental Protection Technology Co ltd
Current assignee: Shandong Yuanfeng Environmental Protection Technology Co ltd
Priority date: 2020-04-16
Filing date: 2020-04-16
Publication date: 2020-12-22
Anticipated expiration: 2030-04-16

Abstract

The utility model discloses an energy-concerving and environment-protective air monitoring device, relate to the monitoring devices field, including the device shell, the device shell is installed on high-rise building top through installation base and bolt, the inside bottom of device shell is provided with monitoring mechanism, and monitoring mechanism's upper end is provided with the sensor probe, in the middle of the inside of device shell, monitoring mechanism's top is provided with the monitoring area, the surface of monitoring area is provided with the ring cover, and the below of ring cover is provided with elevating system, monitoring mechanism's output and elevating system's input electric connection, elevating system passes through the bottom face fixed connection of lifter with the ring cover, the opening of monitoring area sets up to the air intake, and be provided with on the air intake and enclose the protecting wire net, monitoring mechanism's upper end still is provided with the rain gauge, the upper end of rain gauge and device shell integrated. The utility model discloses simple structure can use on high-rise building's top by fixed mounting, and stable in structure realizes real-time supervision, but multi-functional use.

Description

Energy-concerving and environment-protective air monitoring device

Technical Field

The utility model relates to a monitoring devices field, in particular to energy-concerving and environment-protective air monitoring devices.

Background

Air monitoring refers to the fixed-point, continuous, or timed sampling and measurement of pollutants present in the air. In order to monitor air, a plurality of air monitoring points are generally set up in a city, automatic monitoring instruments are installed for continuous automatic monitoring, monitoring results are sent to a person to be retrieved periodically, and relevant data are analyzed and obtained. Items for air monitoring mainly include sulfur dioxide, nitric oxide, hydrocarbons, floating dust, and the like. Air monitoring is the basis for air quality control and reasonable evaluation of air quality.

Most of the existing air monitoring devices are portable devices, real-time monitoring cannot be carried out, sensor probes of the air monitoring devices are exposed in the air for a long time, and the air monitoring devices are prone to failure due to natural erosion such as wind, rain, lightning and the like, are high in replacement cost, can only carry out air monitoring, and are single in function.

Therefore, it is necessary to invent an energy-saving and environment-friendly air monitoring device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-concerving and environment-protective air monitoring devices to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving environment-friendly air monitoring device comprises a device shell, wherein the device shell is installed at the top end of a high-rise building through an installation base and a bolt, a monitoring mechanism is arranged at the bottom end inside the device shell, a sensor probe is arranged at the upper end of the monitoring mechanism, a monitoring area is arranged in the middle of the inside of the device shell and above the monitoring mechanism, a ring sleeve is arranged on the outer surface of the monitoring area, a lifting mechanism is arranged below the ring sleeve, the output end of the monitoring mechanism is electrically connected with the input end of the lifting mechanism, the lifting mechanism is fixedly connected with the bottom end face of the ring sleeve through a lifting rod, an opening of the monitoring area is arranged as an air inlet, a protective screen is arranged on the air inlet, a rain gauge is further arranged at the upper end of the monitoring mechanism, the upper end part of the rain gauge is integrally formed with the device shell, and a leakage groove is formed, and the bottom center of the leakage groove extends downwards to be provided with a water inlet net, the water inlet net is fixed on the stand column, the bottom end of the stand column is fixed at the bottom end of the rain gauge, and the stand column is sleeved with a floating sheet.

Preferably, a water level sensor is arranged inside the rain gauge, a drain pipe is arranged at the bottom end of the rain gauge and extends to the outside of the device shell, and an electromagnetic valve is arranged on the drain pipe.

Preferably, the monitoring area, the ring sleeve and the air inlet are all annular, and the sensor probes are distributed on the monitoring area and located around the rain measuring cylinder.

Preferably, the upper end of the ring sleeve extends to the upper part of the air inlet, and the lower end of the ring sleeve extends to the upper part of the air inlet.

Preferably, the lifting area of the ring sleeve is set as a sleeve groove, and when the ring sleeve completely falls, the upper surface of the ring sleeve and the installation plane of the sensor probe are positioned on the same plane.

Preferably, a solar cell panel is embedded in the outer surface of the device shell, and a storage battery is arranged in the monitoring mechanism.

The utility model discloses a technological effect and advantage:

1. energy-concerving and environment-protective air monitoring device, simple structure can use on high-rise building's top by fixed mounting, stable in structure realizes real-time supervision, can multi-functionally use.

2. The utility model discloses in, through the ring cover that sets up, can avoid sensor probe to expose in the air at non-monitoring time quantum, synthesize the exposure time that reduces sensor probe, increase its life to realize sealed monitoring in the high altitude, also can reduce the degree that sensor probe falls the ash simultaneously.

3. The utility model discloses in, through the rain graduated flask that sets up for this air monitor realizes city rain graduated flask's function, and a device is multi-purpose, energy-concerving and environment-protective.

Drawings

Fig. 1 is the utility model relates to an energy-concerving and environment-protective air monitoring devices's schematic structure diagram.

Fig. 2 is a schematic view of the ring sleeve closed state section structure of the energy-saving and environment-friendly air monitoring device of the present invention.

Fig. 3 is a schematic view of the ring sleeve open state section structure of the energy-saving and environment-friendly air monitoring device of the present invention.

In the figure: 1. a device housing; 2. installing a base; 3. an air inlet; 4. enclosing and protecting the net; 5. a lifting mechanism; 6. a lifting rod; 7. sleeving a ring; 8. sleeving a groove; 9. a sensor probe; 10. a monitoring mechanism; 11. a rain gauge; 12. a column; 13. a leak groove; 14. floating sheets; 15. a water inlet net; 16. and (5) monitoring the area.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely 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 work belong to the protection scope of the present invention.

The utility model provides an energy-concerving and environment-protective air monitoring devices as shown in fig. 1-3, the energy-concerving and environment-protective air monitoring devices of this embodiment, as shown in fig. 1, including device shell 1, device shell 1 is installed on high-rise building top through installation base 2 and bolt, and the inside bottom of device shell 1 is provided with monitoring mechanism 10, and monitoring mechanism 10 includes orientation module, data receiving module, data transmission module, power module and control module, and monitoring mechanism 10's upper end is provided with sensor probe 9, adopts traditional air monitoring technique.

As shown in fig. 2 and 3, a monitoring area 16 is arranged above a monitoring mechanism 10 in the middle of the inside of a device shell 1, a ring sleeve 7 is arranged on the outer surface of the monitoring area 16, a lifting mechanism 5 is arranged below the ring sleeve 7, the output end of the monitoring mechanism 10 is electrically connected with the input end of the lifting mechanism 5, the monitoring mechanism 10 controls the starting of the lifting mechanism 5, a time relay is arranged inside the monitoring mechanism 10, the interval time is set to be started, the lifting mechanism 5 is fixedly connected with the bottom end face of the ring sleeve 7 through a lifting rod 6, the opening of the monitoring area 16 is set as an air inlet 3, a shielding net 4 is arranged on the air inlet 3, the lifting mechanism 5 drives the ring sleeve 7 to lift through the lifting rod 6, the upper end of the ring sleeve 7 extends to the upper part of the air inlet 3, the lower end of the ring sleeve 7 extends to the upper part of the air inlet 3, the air inlet, the lifting area of the ring sleeve 7 is set as a sleeve groove 8, and when the ring sleeve 7 completely falls, the upper surface of the ring sleeve 7 and the installation plane of the sensor probe 9 are positioned on the same plane.

The upper end of the monitoring mechanism 10 is also provided with a rain gauge 11, the upper end part of the rain gauge 11 is integrally formed with the device shell 1, the top end of the rain gauge 11 is provided with a leakage groove 13, the bottom center of the leakage groove 13 extends downwards to be provided with a water inlet net 15, rainwater enters the water inlet net 15 from the leakage groove 13 and then falls into the rain gauge 11, the water inlet net 15 is fixed on a stand column 12, the bottom end of the stand column 12 is fixed at the bottom end of the rain gauge 11, a floating sheet 14 is sleeved on the stand column 12, a water level sensor is arranged inside the rain gauge 11, data of the water level sensor is uploaded to the monitoring mechanism 10, a drain pipe is arranged at the bottom end of the rain gauge 11 and extends to the outside of the device shell 1, a solenoid valve is arranged on the drain pipe and is controlled by the monitoring mechanism 10, the floating sheet 14 gradually rises due to buoyancy force along with the increase of rainwater in the rain gauge 11, the water inlet net 15, after receiving the data, the monitoring mechanism 10 opens the solenoid valve to drain.

Monitoring area 16, ring cover 7 and air intake 3 all are the ring-type, and sensor probe 9 distributes and is located rain graduated flask 11 around monitoring area 16, and under the windy condition in the high altitude, wind passes monitoring area 16 for sensor probe 9 does not have the monitoring blind area, is favorable to the stability of structure moreover, when providing the top protection for sensor probe 9, still is favorable to the entering of air current, blows away the dust of monitoring area 16.

The outer surface of the device shell 1 is inlaid with a solar cell panel, so that the device does not occupy too much space, a storage battery is arranged in the monitoring mechanism 10, and the device is used as power supply of a part of devices, adopts the traditional solar power generation technology, and is energy-saving and environment-friendly.

The working principle is as follows: in the utility model, in the air monitoring time period, the ring sleeve 7 is positioned at the position shown in figure 3, the air inlet 3 is completely opened, if the precise measurement is needed or the non-monitoring time period is not needed, the lifting mechanism 5 drives the ring sleeve 7 to lift through the lifting rod 6, the ring sleeve 7 rises along the sleeve groove 8, the upper end extends to the upper part of the air inlet 3, the lower end of the ring sleeve 7 is positioned above the air inlet 3, the air inlet 3 can be completely blocked, a relatively sealed environment is created, the sensor probe 9 is protected from being exposed in the air, in the rain weather, the device can also start the rain function, rain enters the inlet net 15 from the leakage groove 13 and then falls into the rain gauge 11, the water level sensor in the rain gauge 11 can transmit rain height data, along with the increase of rain in the rain gauge 11, the floating sheet 14 gradually rises due to buoyancy, the water inlet net 15 is blocked to prevent further water inlet until the rain gauge is filled, after receiving the data, the monitoring mechanism 10 opens the solenoid valve to drain.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. The utility model provides an energy-concerving and environment-protective air monitoring device, includes device shell (1), install on high-rise building top through installation base (2) and bolt device shell (1), the inside bottom of device shell (1) is provided with monitoring mechanism (10), just the upper end of monitoring mechanism (10) is provided with sensor probe (9), its characterized in that: in the middle of the inside of the device shell (1), a monitoring area (16) is arranged above the monitoring mechanism (10), a ring sleeve (7) is arranged on the outer surface of the monitoring area (16), a lifting mechanism (5) is arranged below the ring sleeve (7), the output end of the monitoring mechanism (10) is electrically connected with the input end of the lifting mechanism (5), the lifting mechanism (5) is fixedly connected with the bottom end face of the ring sleeve (7) through a lifting rod (6), an opening of the monitoring area (16) is arranged as an air inlet (3), a surrounding and protecting net (4) is arranged on the air inlet (3), a rain gauge (11) is further arranged at the upper end of the monitoring mechanism (10), the upper end part of the rain gauge (11) is integrally formed with the device shell (1), a leakage groove (13) is arranged at the top end of the rain gauge (11), and a water inlet net (15) is arranged at the bottom center of the leakage groove (13) in an extending mode, the water inlet net (15) is fixed on the upright post (12), the bottom end of the upright post (12) is fixed at the bottom end of the rain gauge cylinder (11), and the upright post (12) is sleeved with the floating sheet (14).

2. The energy-saving environment-friendly air monitoring device according to claim 1, characterized in that: the inside of rain gauge (11) is provided with level sensor, just the bottom of rain gauge (11) is provided with the drain pipe, and the drain pipe extends to device shell (1) outside, installs the solenoid valve on the drain pipe.

3. The energy-saving environment-friendly air monitoring device according to claim 1, characterized in that: monitoring area (16), ring cover (7) and air intake (3) all are the ring-type, sensor probe (9) distribute and are located rain graduated flask (11) around monitoring area (16).

4. The energy-saving environment-friendly air monitoring device according to claim 1, characterized in that: the upper end of the ring sleeve (7) extends to the upper part of the air inlet (3), and the lower end of the ring sleeve (7) extends to the upper part of the air inlet (3).

5. The energy-saving environment-friendly air monitoring device according to claim 1, characterized in that: the lifting area of the ring sleeve (7) is set to be a sleeve groove (8), and when the ring sleeve (7) completely falls, the upper surface of the ring sleeve (7) and the installation plane of the sensor probe (9) are located on the same plane.

6. The energy-saving environment-friendly air monitoring device according to claim 1, characterized in that: the solar monitoring device is characterized in that a solar cell panel is embedded in the outer surface of the device shell (1), and a storage battery is arranged in the monitoring mechanism (10).