CN211537092U

CN211537092U - Building engineering environment monitoring device

Info

Publication number: CN211537092U
Application number: CN201922403462.9U
Authority: CN
Inventors: 刘金涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-09-22
Anticipated expiration: 2029-12-27

Abstract

The utility model discloses a building engineering environmental monitoring device, including support column, collecting box, fixed plate and detection case, the support column bottom is fixed with a set of base plate, support column top slope is fixed with a set of fixed plate, the fixed plate top is dug and is equipped with a set of installation cavity, installs solar panel in the installation cavity, fixed plate top department is provided with the clearance structure, and detects the middle section department in cavity and be provided with dust sensor, detects cavity and discharge chamber intercommunication, and the inside filter screen that is provided with of discharge chamber, the filter screen, the opposite side of filter screen is provided with the air exhauster, inside battery, dc-to-ac converter and the warning light of being provided with of collecting box. This building engineering environment monitoring device, reasonable in design can carry out fine clearance to the dust on solar panel in the course of the work, avoids the dust to gather and causes daylighting efficiency to descend the scheduling problem emergence on solar panel, is fit for using widely.

Description

Building engineering environment monitoring device

Technical Field

The utility model belongs to the technical field of the building engineering control, concretely relates to building engineering environmental monitoring device.

Background

Along with the continuous development of society, environmental pollution is more serious, and haze is one of common pollution among them, and therefore environmental improvement pressure is huge, and building engineering is in the foundation ditch earthwork excavation, concrete placement scheduling during the work progress, very easily produces pollution such as dust, noise, mostly carries out fine detection to dust through environment monitoring device, for reducing the power consumption cost, mostly supplies power for supervisory equipment through solar energy power generation's mode.

Solar panel on the supervisory equipment that has now often appears gathering more dust and can't effectively clear up on solar panel after using a period, and then influences solar panel generating efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building engineering environment monitoring device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a building engineering environment monitoring device comprises a supporting column, a collecting box, a fixing plate and a detecting box, wherein a group of base plates are fixed at the bottom of the supporting column, a group of fixing plates are obliquely fixed at the top of the supporting column, a group of mounting cavities are dug at the top of the fixing plate, a solar panel is mounted in the mounting cavities, a cleaning structure is arranged at the top of the fixing plate, and the detecting box and the collecting box are sequentially arranged on one side edge of the supporting column from top to bottom;

the detection box is sequentially provided with a collection cavity, a detection cavity and a discharge cavity from top to bottom, a plurality of groups of air inlets are arranged on the outer side edge of the collection box, each group of air inlets is provided with an air inlet pipe, a plurality of groups of guide rods are arranged in the collection cavity, an exhaust block is arranged in the collection cavity and sleeved on the guide rods, a group of rotating motors are arranged at the top of the detection box, threaded rods are arranged at the front ends of shafts of the rotating motors and penetrate through the exhaust blocks to extend out, a group of air inlet channels are arranged between the collection cavity and the detection cavity, electromagnetic valves are arranged at the air inlet channels, a plurality of component partition plates are arranged in the detection cavity in a staggered mode, a dust sensor is arranged at the middle section of the detection cavity, the detection cavity is communicated with the discharge cavity, a filter screen is arranged;

the collecting box is internally provided with a storage battery, an inverter and a warning lamp.

Preferably, the cleaning structure comprises a guide frame, a meshing plate, a cleaning rod, sliders, a cleaning brush and a rotating motor, the guide frame is symmetrically arranged at the top of the fixing plate, a slide way is dug inside the guide frame, the sliders are arranged inside the slide way in a sliding mode, the cleaning rod is fixed between the two sets of sliders, the cleaning brush is arranged at the bottom of the cleaning rod, one end, far away from the cleaning rod, of each slider is provided with the rotating motor, the meshing wheel is fixed to the front end of a motor shaft of the rotating motor, and the meshing plate is fixed to the bottom of one side, far away from the cleaning rod, of the guide frame.

Preferably, the engaging wheels are engaged with the top of the engaging plate, the lengths of the guide frame and the engaging plate are greater than the length of the fixing plate, and the cleaning brush is attached to the top of the solar panel.

Preferably, intake pipe top department all articulates installs the lid shroud plate, all install curved cooperation board on the both sides edge of lid shroud plate, intake pipe department rotates and is provided with a set of meshing pole, and the both ends and the cooperation board top meshing of meshing pole are provided with the pivoted cooperation motor of drive cooperation pole to the one end of cooperation pole.

Preferably, one side that the filter screen is close to the air exhauster is provided with the clearance motor, the one end of clearance motor is passed the filter screen and is stretched out, and stretches out the end and be provided with the clearance frame, peg graft under the filter screen and install and collect the box.

The utility model discloses a technological effect and advantage: this building engineering environment monitoring device, through the clearance structure that sets up, guide frame in the clearance structure, the meshing board, the clearance pole, the slider, cooperation between clearance brush and the rotation motor, through rotating the reciprocal motion of motor, can carry out fine clearance to the dust that gathers on solar panel, and then avoid solar panel to go up the dust and gather, detection case through the setting, servo motor in the detection case, the exhaust piece, the division board, the dust sensor, the filter screen, cooperation between clearance motor and the air exhauster, can carry out fine motor detection to dust content in the air, simultaneously can arrange the clearance to the gas of detection case inside after finishing detecting, and then improve at every turn and detect the precision, the setting of covering the board simultaneously can be when not detecting state, avoid the dust to gather intake pipe department. This building engineering environment monitoring device, reasonable in design can carry out fine clearance to the dust on solar panel in the course of the work, avoids the dust to gather and causes daylighting efficiency to descend the scheduling problem emergence on solar panel, is fit for using widely.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a top view of the cleaning structure of the present invention;

fig. 3 is a cross-sectional view taken along line a-a of fig. 2 in accordance with the present invention;

FIG. 4 is a sectional view of the detection box of the present invention;

fig. 5 is a schematic structural diagram of the intake pipe of the present invention.

In the figure: 1 support column, 2 collecting boxes, 3 fixed plates, 4 solar panels, 5 cleaning structures, 6 guide frames, 7 meshing plates, 8 cleaning rods, 81 sliding blocks, 9 cleaning brushes, 10 rotating motors, 11 detection boxes, 12 servo motors, 13 exhaust blocks, 14 separation plates, 15 dust sensors, 17 filter screens, 18 cleaning motors, 19 exhaust fans, 20 collecting boxes, 21 air inlet pipes, 211 cover plates and 212 matching plates.

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 a building engineering environment monitoring device as shown in figures 1-5, which comprises a support column 1, a collection box 2, a fixed plate 3 and a detection box 11, wherein a group of base plates are fixed at the bottom of the support column 1, a group of fixed plates 3 are obliquely fixed at the top of the support column 1, a group of installation cavities are dug at the top of the fixed plate 3, a solar panel 4 is installed in the installation cavities, a cleaning structure 5 is arranged at the top of the fixed plate 3, and the detection box 11 and the collection box 2 are sequentially arranged on one side edge of the support column 1 from top to bottom;

the detection box 11 is sequentially provided with a collection cavity, a detection cavity and a discharge cavity from top to bottom, a plurality of groups of air inlets are arranged on the outer side edge of the collection box 2, the air inlets are provided with air inlet pipes 21, a plurality of groups of guide rods are arranged in the collection cavity, an exhaust block 13 is arranged in the collection cavity, the exhaust block 13 is sleeved on the guide rods, a group of rotating motor 10 is arranged at the top of the detection box 11, the front end of a shaft of the rotating motor 10 is provided with a threaded rod which penetrates through the exhaust block 13 to extend out, a group of air inlet channels are arranged between the collection cavity and the detection cavity, electromagnetic valves are arranged at the air inlet channels, a plurality of component partition plates 14 are arranged in the detection cavity in a staggered manner, a dust sensor 15 is arranged at the middle section of the detection cavity, the dust sensor is a PM2.5 sensor and has a model number of DSM501A, the detection, the filter screen 17 is arranged, and an exhaust fan 19 is arranged on the other side of the filter screen 17;

the storage battery, the inverter and the warning lamp are arranged in the collecting box 2, the warning lamp can give an alarm after the dust content exceeds the standard, and the storage battery and the inverter can well store electric energy.

Specifically, clearance structure 5 includes guide frame 6, meshing board 7, clearance pole 8, slider 81, clearance brush 9 and

rotation motor

10, 6 symmetries of guide frame set up in 3 tops departments of fixed plate, 6 inside slides that are equipped with of digging of guide frame, the inside slip of slide is provided with slider 81, is fixed with clearance pole 8 between two sets of

sliders

81, 8 bottoms departments of clearance pole are provided with

clearance brush

9, 8 one ends of clearance pole are kept away from to slider 81 and are installed rotation motor 10, the spindle front end of rotating motor 10 is fixed with the meshing wheel, one side bottom department that clearance pole 8 was kept away from to guide frame 6 is fixed with meshing board 7.

Specifically, the meshing wheel is meshed with the top of the meshing plate 7, the lengths of the guide frame 6 and the meshing plate 7 are larger than that of the fixing plate 3, and the cleaning brush 9 is attached to the top of the solar panel 4.

Specifically, intake pipe 21 top department all articulates installs and covers board 211, cover the both sides edge of board 211 and all install curved cooperation board 212, intake pipe 21 department rotates and is provided with a set of meshing pole, and the both ends and the cooperation board 212 top meshing of meshing pole, the one end of cooperation pole are provided with and drive cooperation pole pivoted cooperation motor.

Specifically, one side that filter screen 17 is close to air exhauster 19 is provided with clearance motor 18, the one end of clearance motor 18 is passed filter screen 17 and is stretched out, and stretches out the end and be provided with the clearance frame, and one side that the clearance frame is close to the filter screen is provided with the brush, peg graft under filter screen 17 and install and collect box 20.

Specifically, during the operation, after a period of time, the rotating motor 10 is started, the rotating motor 10 drives the meshing wheel to rotate, the meshing wheel is matched with the meshing plate 7, the sliding block 81 is further moved, the cleaning rod 8 is further rotated, the cleaning brush 9 is moved when the cleaning rod 8 rotates, so that dust on the solar panel 4 is well cleaned, the problem of low lighting efficiency caused by the fact that a lot of dust is collected on the solar panel 4 can be avoided by the reciprocating motion of the rotating motor 10, during the detection, the matching motor is started, the matching rod is driven to rotate by the matching motor, the matching rod is meshed with the matching plate 212, so that the matching plate 212 is moved, the cover plate 211 is opened, the fan is started at the moment, the electromagnetic valve is opened, air pumped by the fan enters the detection box 11 and reaches the detection cavity through the collection cavity, and the dust content is effectively detected by the dust sensor 15 in the detection cavity, when dust content is too high, the warning light lights, and then remind the workman to spill the dust fall, detect the back that finishes, close the solenoid valve, the air is continuously twitched to the fan, and then make the air escape that detects the intracavity, servo motor 12 starts simultaneously, and then make the threaded rod rotate, the threaded rod cooperates with exhaust block 13, and then carry out fine getting rid of to the air that detects in the chamber, cooperation motor starts and reverses this moment, and then make the lid apron 211 lid close, when filter screen 17 department dust is more, start clearance motor 18, the one side of filtering the dust through the brush on the clearance frame filter screen 17 carries out fine filtration, can take out the dust of pouring the start-up with collecting box 20 after the filtration. This building engineering environment monitoring device, reasonable in design can carry out fine clearance to the dust on solar panel 4 in the course of the work, avoids the dust to gather and causes daylighting efficiency to descend the scheduling problem emergence on solar panel 4, is fit for using widely.

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 a building engineering environmental monitoring device, includes support column (1), collecting box (2), fixed plate (3) and detection case (11), its characterized in that: a group of base plates are fixed at the bottom of the supporting column (1), a group of fixing plates (3) are obliquely fixed at the top of the supporting column (1), a group of mounting cavities are dug at the tops of the fixing plates (3), solar panels (4) are mounted in the mounting cavities, a cleaning structure (5) is arranged at the top of each fixing plate (3), and a detection box (11) and a collection box (2) are sequentially arranged on one side edge of the supporting column (1) from top to bottom;

the detection box (11) is sequentially provided with a collection cavity, a detection cavity and a discharge cavity from top to bottom, a plurality of groups of air inlets are arranged on the outer side edge of the collection box (2), a plurality of groups of air inlets are provided with air inlet pipes (21), a plurality of groups of guide rods are arranged in the collection cavity, a discharge block (13) is arranged in the collection cavity, the discharge block (13) is sleeved on the guide rods, a group of rotating motors (10) are arranged at the top of the detection box (11), a threaded rod is arranged at the front end of a machine shaft of each rotating motor (10), the threaded rod penetrates through the discharge block (13) to extend out, a group of air inlet channels are arranged between the collection cavity and the detection cavity, electromagnetic valves are arranged at the air inlet channels, a plurality of component partition plates (14) are arranged in the detection cavity in a staggered manner, a dust sensor (15) is arranged in the middle section of the detection, the other side of the filter screen (17) is provided with an exhaust fan (19);

the collecting box (2) is internally provided with a storage battery, an inverter and a warning lamp.

2. A construction work environment monitoring apparatus according to claim 1, wherein: clearance structure (5) are including guide frame (6), meshing board (7), clearance pole (8), slider (81), clearance brush (9) and rotation motor (10), guide frame (6) symmetry sets up in fixed plate (3) top department, guide frame (6) inside is dug and is equipped with the slide, and the slide is inside to be slided and is provided with slider (81), is fixed with clearance pole (8) between two sets of slider (81), clearance pole (8) bottom department is provided with clearance brush (9), slider (81) are kept away from clearance pole (8) one end and are installed rotation motor (10), the spindle front end that rotates motor (10) is fixed with the meshing wheel, one side bottom department that clearance pole (8) were kept away from in guide frame (6) is fixed with meshing board (7).

3. A construction work environment monitoring apparatus according to claim 2, wherein: the engaging wheels are engaged with the top of the engaging plate (7), the lengths of the guide frame (6) and the engaging plate (7) are greater than that of the fixing plate (3), and the cleaning brush (9) is attached to the top of the solar panel (4).

4. A construction work environment monitoring apparatus according to claim 1, wherein: intake pipe (21) top department all articulates installs and covers board (211), cover the both sides edge of board (211) and all install curved cooperation board (212), intake pipe (21) department rotates and is provided with a set of meshing pole, the both ends and the meshing of cooperation board (212) top of meshing pole, and the one end of cooperation pole is provided with and drives cooperation pole pivoted cooperation motor.

5. A construction work environment monitoring apparatus according to claim 1, wherein: one side that filter screen (17) are close to air exhauster (19) is provided with clearance motor (18), the one end of clearance motor (18) is passed filter screen (17) and is stretched out, and stretches out the end and be provided with the clearance frame, peg graft under filter screen (17) and install and collect box (20).