CN116600552B - Building environment monitoring device and use method - Google Patents

Abstract

The invention belongs to the technical field of environment monitoring and discloses a building environment monitoring device and a use method thereof, wherein the building environment monitoring device comprises a moving platform, a supporting round rod is rotatably arranged on the moving platform, an adjusting component for driving the supporting round rod to integrally rotate is arranged on the moving platform, a monitoring box is arranged on the supporting round rod, ventilation filter components are respectively arranged on two sides of the monitoring box, a beating component for beating and dedusting the ventilation filter components is arranged on the monitoring box, a first mounting seat is arranged at the upper end position of the supporting round rod, a monitoring component is arranged on the first mounting seat, and a protection component is arranged at the upper end position of the supporting round rod; the invention has simple integral structure, can timely remove dust from the monitoring box, prevents dust from accumulating to block the ventilation end of the monitoring box, and can guide rainwater, thereby being convenient to use.

Description

Building environment monitoring device and use method

Technical Field

The invention belongs to the technical field of environmental monitoring, and particularly relates to a building environment monitoring device and a using method thereof.

Background

The engineering environment monitoring equipment is used for collecting, storing, processing and statistically analyzing environment monitoring data such as dust emission, noise, meteorological parameters and the like of a building site, the monitoring data and video images are transmitted to a rear-end platform in a wired or wireless (3G/4G) mode, and the equipment can help a supervision department to timely and accurately master the environment quality condition of the building site and the influence degree of an engineering construction process on the environment, meets the requirement of environmental protection statistics of the building construction industry and provides environment information support and management decision basis for pollution control, pollution control and ecological protection of the building construction industry.

When the existing monitoring equipment is used, the parts inside the monitoring box are too many, heat is required to be dissipated, short circuits are avoided, and because of more dust on the construction site, the ventilation end of the monitoring box is easily blocked, so that the heat dissipation effect of the monitoring box is affected, the short circuits are caused, and normal use is affected.

Disclosure of Invention

The invention aims to solve the technical problem of providing a building environment monitoring device and a using method thereof, which have simple integral structure, can timely remove dust from a monitoring box, prevent dust accumulation from blocking the ventilation end of the monitoring box, and can guide rainwater so as to be convenient to use.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a building environment monitoring device, including moving platform, the last rotation of moving platform is installed and is supported the round bar, install on the moving platform and be used for driving the whole pivoted regulation subassembly of support round bar, support and install the monitoring case on the round bar, ventilation filter component is installed respectively to the both sides of monitoring case, install on the monitoring case and be used for beating the subassembly of beating the dust removal to ventilation filter component, support the upper end position department of round bar and install first mount pad, install the monitoring component on the first mount pad, support the upper end position department of round bar and be provided with protection component.

The following is a further optimization of the above technical solution according to the present invention:

the ventilation filter component comprises a ventilation frame fixedly arranged on two sides of the monitoring box, a filter plate is respectively and slidably arranged in the ventilation frame, and a second telescopic spring is fixedly connected to one side, opposite to the filter plate, of the inner side wall of the ventilation frame.

Further optimizing: the beating component comprises a fixed frame which is arranged on the monitoring box and is respectively positioned above the ventilation frame, a beating rod is hinged on the fixed frame, and the other end of the beating rod extends to the middle position of the corresponding filter plate respectively and is integrally connected with a beating block;

the fixed frame is respectively and fixedly provided with a fixed rod, the other end of the fixed rod and one side of the striking rod are fixedly provided with mounting blocks, and an elastic component is rotatably arranged between the two corresponding mounting blocks positioned on the same side.

Further optimizing: the inner side surface of the striking rod is integrally connected with a bulge part near the hinge joint of the striking rod and the fixed frame, a main rotating shaft is rotatably arranged at the position near the bulge part in the fixed frame, the outside of main pivot all fixedly connected with rotary rod, the equal rotation of the other end of rotary rod are connected with the gyro wheel, and gyro wheel and bellying cooperation are used, install on the monitoring case and are used for driving main pivot and carry out pivoted power drive assembly.

Further optimizing: the protection assembly comprises a limiting plate fixedly arranged at the upper end of the supporting round rod, a third rotating shaft is rotatably arranged on the limiting plate, a hinging block is arranged on the third rotating shaft, a rain-shielding plate is fixedly arranged on one side of the hinging block, and a water tank is arranged on the upper end face of the rain-shielding plate.

Further optimizing: a first hollow air box is fixedly arranged on one side, far away from the hinge block, of the flashing plate, a second hollow air box is fixedly arranged on two sides, perpendicular to the first hollow air box, of the flashing plate respectively, air holes are formed in the outer side surfaces of the first hollow air box and the second hollow air box, and the first hollow air box and the second hollow air box are mutually communicated through a communicating pipe;

the lower extreme fixed mounting of flashing has the air pump, and the air-blowing end of air pump communicates with first cavity air-blowing case through the conveyer pipe, and the intercommunication has the filter head on the inlet end of air pump.

Further optimizing: one side of the hinged block away from the flashing is hinged with a supporting block, the lower end of the supporting block is fixedly connected with a lifting column, a first mounting seat is positioned below the flashing, a telescopic cylinder is fixedly mounted at the position, corresponding to the lifting column, of the first mounting seat, and the telescopic end of the telescopic cylinder is fixedly connected with the lower end of the lifting column.

Further optimizing: the adjusting component comprises a track fixedly mounted on a moving platform, a rack is connected to the inside of the track in a sliding manner, a mounting plate is mounted on the moving platform, an electric telescopic rod is mounted on the mounting plate, a telescopic end of the electric telescopic rod is fixedly connected with the rack, an adjusting gear is fixedly connected to the outside of the supporting round rod, and the adjusting gear is meshed with the rack.

Further optimizing: the monitoring assembly comprises a wind vane, a noise monitor, a shutter box and an anemometer which are fixedly arranged on the first mounting seat;

the outside that supports the round bar is located the top fixed mounting of monitoring case has the second mount pad, is provided with solar panel on the second mount pad.

The invention also provides a using method of the building environment monitoring device, which is based on the building environment monitoring device and comprises the following steps:

step one, outside air enters a monitoring box through a filter plate on a ventilation frame to ventilate and dissipate heat, and meanwhile, the filter plate filters dust;

step two, starting a power driving assembly to drive a main rotating shaft to rotate, wherein the main rotating shaft rotates to drive a roller to rotate through a rotating rod, and the roller periodically pushes against a convex part in the rotating process, so that a beating block of a beating rod is separated from a filter plate, an elastic assembly is extruded, and when the roller is separated from the convex part, the elastic assembly instantaneously rebounds to drive the convex part on the beating rod to beat the filter plate;

step three, when raining, the telescopic cylinder works and drives the supporting block to move upwards through the lifting column, so that the flashing is covered above the first mounting seat, the monitoring assembly and the solar power generation plate are protected, at the moment, the water tank on the flashing guides rainwater, meanwhile, the air pump is started, air is blown out through the first hollow air box and the second hollow air box, and the blown-out air blows the rainwater away;

and fourthly, during sunny days, the telescopic air cylinder works to pull the support block to move downwards through the lifting column, so that the flashing board is rotated through the third rotating shaft to be folded, and the normal use of the solar power generation board is prevented from being influenced.

According to the technical scheme, when the monitoring device is used, external air enters the monitoring box through the filter plates on the ventilation frame to ventilate and dissipate heat, meanwhile, the filter plates can filter dust, the power driving assembly drives the beating assembly to work, the beating assembly beats the filter plates at the moment, dust on the filter plates is vibrated down, dust on the filter plates is treated, the filter plates are prevented from being blocked by dust, the monitoring box can dissipate heat normally, and the monitoring device is convenient to use.

When in rainy weather, the protection component can cover the upper part of the first mounting seat to protect the monitoring component and the solar power panel, so that rainwater is prevented from falling on the monitoring component and the solar power panel, and the service lives of the monitoring component and the solar power panel are prolonged; and during sunny days, the protection component can be retracted, so that the protection component is prevented from shielding the solar power generation panel and affecting normal use.

And through adjusting part, can adjust the circumference position of supporting the round bar, and then realize adjusting the circumference position of solar panel for solar panel on the supporting the round bar is oriented the direction of sun all the time, does benefit to the collection electric energy.

The solar energy power generation device has the advantages that the technical scheme is ingenious in design and reasonable in structure, dust at the ventilation end of the monitoring box can be hit and vibrated to fall, timely dust removal is achieved, dust accumulation is prevented from blocking the ventilation end of the monitoring box, the position of the protection component can be adjusted according to weather conditions, the monitoring component and the solar energy power generation plate are protected, rainwater is prevented from falling on the monitoring component and the solar energy power generation plate, the circumferential position of the solar energy power generation plate can be adjusted according to the radiation angle position of the sun through the adjustment component, the solar energy power generation plate always faces the direction of the sun, electric energy collection is facilitated, the whole structure is simple, manufacturing and production are convenient, production and use costs can be reduced, and the use effect is improved.

The invention will be further described with reference to the drawings and examples.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a side view of the general structure of an embodiment of the present invention;

FIG. 3 is a schematic view of a striking assembly according to an embodiment of the invention;

FIG. 4 is a schematic view of a portion of a striking assembly according to an embodiment of the invention;

FIG. 5 is a schematic view of a protective component according to an embodiment of the present invention;

FIG. 6 is a schematic view of a portion of a protective component according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an adjusting component according to an embodiment of the present invention.

In the figure: 1-a mobile platform; 2-supporting round rods; 3-a monitoring box; 4-a striking assembly; 401-a fixed frame; 402-driving a motor; 403-main shaft; 404-rotating the rod; 405-rotating shaft; 406-a roller; 407-a first spindle; 408-striking the rod; 409-a fixed rod; 410-mounting blocks; 411-a second spindle; 412-rotating the block; 413-a first telescoping rod; 415-pulleys; 416-rotating the belt; 417-a first extension spring; 418-a ventilation frame; 419-a second extension spring; 420-filtering plates; 421-boss; 422-striking block; 5-a protective component; 501-flashing; 502-a water tank; 503-a delivery tube; 504-a first hollow plenum; 505-a first mount; 506-telescoping cylinder; 507—a guide frame; 508-a second hollow plenum; 509-communicating tube; 510-limiting plates; 511-a third spindle; 512-branch block; 513-lifting column; 514-an air pump; 515-a filter head; 516-hinge blocks; 6-an adjustment assembly; 601-an adjusting gear; 602-track; 603-a rack; 604-a slider; 605-electric telescopic rod; 606-mounting plate; 7-a wind vane; 8-a noise supervisor; 9-a shutter box; 10-anemometer; 11-a solar panel; 12-a second mounting seat.

Detailed Description

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, a building environment monitoring device, including moving platform 1, moving platform 1 is gone up and is rotated and install and support round bar 2, moving platform 1 is gone up and is installed and be used for driving and support round bar 2 whole pivoted adjusting part 6, support round bar 2 and install monitoring case 3, ventilation filter assembly is installed respectively to monitoring case 3 both sides, install on monitoring case 3 and be used for beating the subassembly 4 of beating of dust removal to ventilation filter assembly, support round bar 2's upper end position department installs first mount pad 505, install monitoring assembly on the first mount pad 505, support round bar 2's upper end position department is provided with protection subassembly 5.

The design like this, outside air passes through ventilation filter assembly and gets into in the monitoring case 3 to ventilate heat dissipation to monitoring case 3, ventilation filter assembly can filter the dust simultaneously, hit and hit the subassembly 4 work and hit the ventilation filter assembly, shake the dust on the ventilation filter assembly and fall, realize handling the dust on the ventilation filter assembly, avoid the dust to block up ventilation filter assembly, make monitoring case 3 can normally dispel the heat, facilitate the use.

The protection component 5 can protect the monitoring component in rainy days, avoids the rainwater to fall on the monitoring component, can adjust the circumference position of supporting the round bar 2 through adjusting component 6, facilitates the use.

The ventilation filter assembly comprises ventilation frames 418 fixedly arranged on two sides of the monitoring box 3, and filter plates 420 are respectively and slidably arranged in the ventilation frames 418.

A plurality of second telescopic springs 419 are fixedly connected to the side, opposite to the filter plate 420, of the inner side wall of the ventilation frame 418, and the plurality of second telescopic springs 419 are distributed at intervals.

The second extension spring 419 is used for supporting the filter plate 420, and in an initial state, the second extension spring 419 outputs elastic force to push the filter plate 420, so that the filter plate 420 has force to move outwards.

An air blower (not shown) is installed in the ventilation frame 418 at the inner side of the filter plate 420, and the filter plate 420 and the air blower are arranged at intervals.

By means of the design, outside air can enter the monitoring box 3 through the filter plate 420 to be ventilated and radiated, dust can be filtered through the filter plate 420, the dust monitoring box is convenient to use, and the air supply fan is used for improving the speed of the outside air entering the monitoring box 3, so that the dust monitoring box is convenient to use.

The inner walls of the two sides of the ventilation frame 418 are respectively provided with a sliding groove, the insides of the two sliding grooves are respectively connected with sliding blocks in a sliding manner, and the sliding blocks are respectively and fixedly installed on the filter plate 420.

By means of the design, the filter plate 420 can be slidably mounted in the ventilation frame 418 through the cooperation of the sliding blocks and the sliding grooves, and assembly and installation are convenient.

The striking component 4 comprises a fixed frame 401 which is arranged on the monitoring box 3 and is respectively positioned above the ventilation frame 418, the fixed frame 401 is hinged with a striking rod 408, and the other end of the striking rod 408 is respectively extended to the middle position of the corresponding filter plate 420 and is integrally connected with a striking block 422.

The striking rod 408 is fixedly connected with a first rotating shaft 407 at one end part hinged with the fixed frame 401, a first mounting hole is respectively formed in the fixed frame 401 at a position corresponding to the first rotating shaft 407, and two ends of the first rotating shaft 407 are respectively rotatably mounted in the first mounting hole through bearings.

By means of the design, the striking rod 408 is hinged to the fixed frame 401 through the cooperation of the first rotating shaft 407, the bearing and the first mounting hole, and assembly and installation are convenient.

The fixing frame 401 is fixedly provided with fixing rods 409 respectively, the other ends of the fixing rods 409 and one side of the striking rod 408 are fixedly provided with mounting blocks 410, and an elastic component is rotatably mounted between the two corresponding mounting blocks 410 positioned on the same side.

The elastic component includes a first telescopic link 413, the first telescopic link 413 is laid for the slope, the upper end and the lower tip of first telescopic link 413 respectively with the corresponding installation piece 410 of same side articulated, the cover is equipped with a expansion spring 417 on the surface of first telescopic link 413.

The upper end and the lower end of the first telescopic rod 413 are respectively and fixedly connected with a rotating block 412, a second rotating shaft 411 is installed in the middle of the rotating block 412, and two ends of the second rotating shaft 411 are respectively and rotatably connected with corresponding mounting blocks 410 through bearings.

By means of the design, the upper end and the lower end of the first telescopic rod 413 can be hinged with the corresponding mounting blocks 410 through the rotating blocks 412 and the second rotating shafts 411, and assembly and installation are convenient.

The first telescopic rod 413 is used for guiding the telescopic movement of the first telescopic spring 417, and at this time, the first telescopic spring 417 outputs an elastic force to push the striking rod 408 to swing, so that the striking rod 408 drives the striking block 422 to contact with the filter plate 420.

A boss 421 is integrally connected to the inner surface of the striking rod 408 near the hinge of the striking rod 408 and the fixing frame 401.

The main rotating shaft 403 is rotatably mounted at a position, close to the protruding portion 421, in the fixing frame 401, a rotating rod 404 is fixedly connected to the outer portion of the main rotating shaft 403, a roller 406 is rotatably connected to the other end of the rotating rod 404, and the roller 406 is matched with the protruding portion 421.

In this embodiment, a rotating shaft 405 is disposed in the middle of the roller 406, the rotating shaft 405 is rotatably connected with the roller 406, and two ends of the rotating shaft 405 are respectively mounted on the rotating rod 404.

By the design, the roller 406 is supported and installed on the rotating rod 404 through the rotating shaft 405, and free rotation of the roller 406 can be realized, so that the roller is convenient to use.

The two ends of the main rotating shaft 403 are respectively connected with the fixed frame 401 in a rotating way through bearings.

The monitoring box 3 is provided with a power driving component for driving the main rotating shaft 403 to rotate.

The power driving assembly comprises a driving motor 402 fixedly installed on the monitoring box 3, belt wheels 415 are respectively installed on one end portion of the main rotating shaft 403, a plurality of main belt wheels are respectively fixedly connected to the driving end of the driving motor 402, and rotating belts 416 are respectively sleeved between the belt wheels 415 and the corresponding main belt wheels.

The driving motor 402 works to drive the main belt pulley to rotate, the main belt pulley rotates to drive the corresponding belt pulley 415 to rotate through the rotating belt 416, and the main rotating shaft 403 can be driven to rotate, so that the use is convenient.

In this embodiment, to ensure that the rotation directions of the two main shafts 403 are opposite, a set of rotation belts 416 between the main pulleys and the pulley 415 uses a cross transmission.

In this design, the driving motor 402 outputs rotation power to drive the two main rotating shafts 403 to rotate reversely through the transmission action of the main belt pulley, the belt pulley 415 and the rotating belt 416, so that the use is convenient.

When the intelligent monitoring device is used, outside air enters the monitoring box 3 through the filter plate 420 on the ventilation frame 418 to ventilate and dissipate heat, dust is filtered through the filter plate 420, the intelligent monitoring device is convenient to use, then the driving motor 402 is started, the driving motor 402 works to drive the two main rotating shafts 403 to rotate through the transmission action of the main belt pulley, the belt pulley 415 and the rotating belt 416, at this moment, the main rotating shafts 403 drive the rollers 406 to rotate through the rotating rods 404, the rollers 406 periodically push the protruding portions 421 on the beating rod 408 in the rotating process, the beating blocks 422 of the beating rod 408 are separated from the filter plate 420, and at this moment, the first telescopic springs 417 are extruded.

When the roller 406 is separated from the boss 421, the first extension spring 417 instantaneously rebounds to drive the boss 421 on the striking rod 408 to strike the filter plate 420.

Referring to fig. 1, 5 and 6, the protection assembly 5 includes a limiting plate 510 fixedly installed at the upper end of the supporting round rod 2, a third rotating shaft 511 is rotatably installed on the limiting plate 510, a hinge block 516 is installed on the third rotating shaft 511, a flashing plate 501 is fixedly installed on one side of the hinge block 516, and a water tank 502 is provided on the upper end surface of the flashing plate 501.

Referring to fig. 5 and 6, a first hollow air box 504 is fixedly installed on one side of the flashing 501 away from the hinge block 516, and a second hollow air box 508 is fixedly installed on two sides of the flashing 501 perpendicular to the first hollow air box 504.

The outer side surfaces of the first hollow air box 504 and the second hollow air box 508 are provided with air holes, and the first hollow air box 504 and the second hollow air box 508 are communicated with each other through a communicating pipe 509.

Referring to fig. 5 and 6, an air pump 514 is fixed to the lower end of the flashing 501, the air-blowing end of the air pump 514 is connected to the first hollow air-blowing box 504 through a delivery pipe 503, and a filter head 515 is connected to the air-intake end of the air pump 514.

The filter head 515 is used for filtering the gas entering the air pump 514, and is convenient to use.

Referring to fig. 1, 5 and 6, a support block 512 is hinged to a side of the hinge block 516 away from the flashing 501, and a lifting column 513 is fixedly connected to a lower end of the support block 512.

The first mounting seat 505 is located below the flashing 501, and a telescopic cylinder 506 is fixedly mounted at a position corresponding to the lifting column 513 on the first mounting seat 505, and a telescopic end of the telescopic cylinder 506 is fixedly connected with a lower end of the lifting column 513.

The two sides of the support block 512 are fixedly connected with cylinders, and two ends of the cylinders are hinged with the hinge blocks 516 through bearings respectively.

A guide bracket 507 for guiding the telescopic end of the telescopic cylinder 506 is mounted on the first mounting seat 505 at a position close to the telescopic cylinder 506.

The guide frame 507 can improve the connection effect between the telescopic cylinder 506 and the first installation seat 505, and the telescopic end of the telescopic cylinder 506 penetrates through the guide frame 507, and the telescopic end of the telescopic cylinder 506 is in sliding connection with the guide frame 507.

When in rainy weather, the telescopic cylinder 506 works to drive the support block 512 to move upwards through the lifting column 513, so that the flashing 501 is covered above the first installation seat 505 to protect the monitoring assembly, and the water tank 502 on the flashing 501 guides rainwater at the moment to prevent the rainwater from wetting the monitoring assembly.

Meanwhile, the air pump 514 can be started, the air pump 514 is used for pumping external fresh air and delivering the external fresh air into the first hollow air tank 504 and the second hollow air tank 508 through the delivery pipe 503 after pressurizing, and at the moment, the air in the first hollow air tank 504 and the second hollow air tank 508 is discharged through the air blowing holes, so that the blown air blows rainwater away, and the use is convenient.

During sunny days, the telescopic air cylinder 506 works to pull the support block 512 to move downwards through the lifting column 513, so that the flashing 501 rotates through the third rotating shaft 511 to be retracted, and the use is convenient.

Referring to fig. 1 and 7, the adjusting assembly 6 includes a rail 602 fixedly installed on the mobile platform 1, and a rack 603 is slidably connected to the inside of the rail 602.

An installation plate 606 is installed at one end position of the track 602 on the mobile platform 1, an electric telescopic rod 605 is installed on the installation plate 606, and the telescopic end of the electric telescopic rod 605 is fixedly connected with the rack 603.

An adjusting gear 601 is fixedly connected to the outer portion of the supporting round rod 2, and the adjusting gear 601 is meshed with a rack 603.

The inside sliding connection of track 602 has slider 604, slider 604 and rack 603 fixed connection.

By means of the design, the rack 603 is slidably mounted on the track 602 through the cooperation of the sliding block 604 and the track 602, and assembly and installation are facilitated.

The outside fixedly connected with second mount pad 12 of support round bar 2, one side of second mount pad 12 is provided with solar panel 11.

When the solar energy power generation device is used, solar energy power generation can be performed through the solar power generation panel 11, a peripheral storage battery is arranged on the outer side of the solar power generation panel 11, and electric energy generated on the solar power generation panel 11 is stored in the peripheral storage battery.

And when the circumferential position of the solar panel 11 needs to be adjusted, the electric telescopic rod 605 can be started, and the electric telescopic rod 605 works to drive the rack 603 on the sliding block 604 to move in the track 602, so that the rack 603 drives the adjusting gear 601 to rotate, the solar panel 11 on the supporting round rod 2 faces the direction of the sun all the time, and electric energy collection is facilitated.

Referring to fig. 1, 2, 3 and 4, the monitoring assembly includes a wind vane 7 fixedly mounted on a first mount 505, a noise supervisor 8, a louver box 9 and an anemometer 10.

The wind vane 7 is used for monitoring wind direction at any time, the noise monitor 8 is used for monitoring noise conditions, and the anemometer 10 is used for monitoring wind speed.

In this embodiment, the wind vane 7, the noise monitor 8, the louver box 9 and the anemometer 10 are all of the prior art and are commercially available.

The application method of the building environment monitoring device is based on the building environment monitoring device, and comprises the following steps:

in the first step, external air enters the monitoring box 3 through the filter plate 420 on the ventilation frame 418 to ventilate and dissipate heat, and meanwhile, dust is filtered by the filter plate 420.

In the first step, the air supply fan works to increase the speed of the external air entering the monitoring box 3, so that the air supply fan is convenient to use.

Step two, the power driving component is started to drive the main rotating shaft 403 to rotate, the main rotating shaft 403 rotates to drive the roller 406 to rotate through the rotating rod 404, the roller 406 periodically pushes the protruding portion 421 in the rotating process, the beating block 422 of the beating rod 408 is separated from the filter plate 420, the elastic component is extruded, and when the roller 406 is separated from the protruding portion 421, the elastic component instantly rebounds to drive the protruding portion 421 on the beating rod 408 to beat the filter plate 420.

The specific operation steps of the second step are as follows: the driving motor 402 works to drive the two main rotating shafts 403 to rotate through the transmission action of the main belt pulley, the belt pulley 415 and the rotating belt 416, at this time, the main rotating shafts 403 drive the rollers 406 to rotate through the rotating rods 404, the rollers 406 periodically push the protruding portions 421 in the rotating process, so that the beating blocks 422 of the beating rod 408 are separated from the filter plates 420, and at this time, the first telescopic springs 417 are extruded.

When the roller 406 is separated from the boss 421, the first extension spring 417 instantaneously rebounds to drive the boss 421 on the striking rod 408 to strike the filter plate 420.

Step three, during rainy days, the telescopic cylinder 506 works to drive the supporting block 512 to move upwards through the lifting column 513, so that the flashing 501 is covered above the first installation seat 505 to protect the monitoring assembly and the solar power generation panel 11, the water tank 502 on the flashing 501 guides rainwater, meanwhile, the air pump 514 is started, the air pump 514 works to pump external fresh air and convey the external fresh air into the first hollow air tank 504 and the second hollow air tank 508 through the conveying pipe 503 after being pressurized, and at the moment, air in the first hollow air tank 504 and the second hollow air tank 508 is discharged through the air blowing holes, so that the blown air blows the rainwater away.

Fourth, during sunny days, the telescopic air cylinder 506 works to pull the support block 512 to move downwards through the lifting column 513, so that the flashing 501 rotates through the third rotating shaft 511 to be folded, and the normal use of the solar power generation panel 11 is prevented from being influenced.

In the fourth step, when the solar panel 11 is used, the electric telescopic rod 605 is started, and the electric telescopic rod 605 works to drive the rack 603 on the sliding block 604 to move in the track 602, so that the rack 603 drives the adjusting gear 601 to rotate, and the solar panel 11 on the supporting round rod 2 always faces the direction of the sun, thereby being beneficial to collecting electric energy.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. Building environment monitoring device, including mobile platform (1), its characterized in that: the movable platform (1) is rotatably provided with a supporting round rod (2), the movable platform (1) is provided with an adjusting component (6) for driving the supporting round rod (2) to integrally rotate, the supporting round rod (2) is provided with a monitoring box (3), both sides of the monitoring box (3) are respectively provided with a ventilation filtering component, the monitoring box (3) is provided with a beating component (4) for beating and dedusting the ventilation filtering component, the upper end position of the supporting round rod (2) is provided with a first mounting seat (505), the first mounting seat (505) is provided with a monitoring component, and the upper end position of the supporting round rod (2) is provided with a protection component (5);

the ventilation filter assembly comprises ventilation frames (418) fixedly arranged on two sides of the monitoring box (3), filter plates (420) are respectively and slidably arranged in the ventilation frames (418), and a second telescopic spring (419) is fixedly connected to one side, opposite to the filter plates (420), of the inner side wall of the ventilation frames (418);

the beating component (4) comprises a fixed frame (401) which is arranged on the monitoring box (3) and is respectively positioned above the ventilation frame (418), the fixed frame (401) is hinged with a beating rod (408), and the other end of the beating rod (408) is respectively extended to the middle position of the corresponding filter plate (420) and is integrally connected with a beating block (422);

the fixed frames (401) are respectively and fixedly provided with a fixed rod (409), the other ends of the fixed rods (409) and one side of the striking rod (408) are fixedly provided with mounting blocks (410), and an elastic component is rotatably arranged between two corresponding mounting blocks (410) positioned on the same side;

the utility model discloses a power drive assembly that is used for driving main pivot (403) to rotate is installed to articulated department an organic whole that just is close to beating on the medial surface of beating pole (408) and fixed frame (401) has bellying (421), the position department that is close to bellying (421) rotates in fixed frame (401) installs main pivot (403), the outside of main pivot (403) is all fixedly connected with rotary rod (404), the other end of rotary rod (404) is all rotated and is connected with gyro wheel (406), gyro wheel (406) and bellying (421) cooperation use, install on monitoring box (3).

2. A building environment monitoring device according to claim 1, wherein: the protection component (5) comprises a limiting plate (510) fixedly installed at the upper end position of the supporting round rod (2), a third rotating shaft (511) is rotatably installed on the limiting plate (510), a hinging block (516) is installed on the third rotating shaft (511), a rain shielding plate (501) is fixedly installed on one side of the hinging block (516), and a water tank (502) is arranged on the upper end face of the rain shielding plate (501).

3. A building environment monitoring device according to claim 2, wherein: a first hollow air box (504) is fixedly arranged on one side, far away from the hinging block (516), of the flashing (501), a second hollow air box (508) is fixedly arranged on two sides, perpendicular to the first hollow air box (504), of the flashing (501), air holes are formed in the outer side surfaces of the first hollow air box (504) and the second hollow air box (508), and the first hollow air box (504) and the second hollow air box (508) are mutually communicated through a communicating pipe (509);

an air pump (514) is fixedly arranged at the lower end of the flashing (501), the air blowing end of the air pump (514) is communicated with the first hollow air blowing box (504) through a conveying pipe (503), and a filter head (515) is communicated with the air inlet end of the air pump (514).

4. A building environment monitoring device according to claim 3, wherein: one side that the rain-proof board (501) was kept away from to articulated piece (516) articulates there is a piece (512), and the lower extreme fixedly connected with lifting column (513) of piece (512), and first mount pad (505) are located the below of rain-proof board (501), and position department fixed mounting that first mount pad (505) gone up and lifting column (513) correspond has telescopic cylinder (506), and telescopic end and the lower extreme fixed connection of lifting column (513) of telescopic cylinder (506).

5. The building environment monitoring device of claim 4, wherein: the adjusting component (6) comprises a track (602) fixedly installed on the mobile platform (1), a rack (603) is connected to the inside of the track (602) in a sliding mode, a mounting plate (606) is installed on the mobile platform (1), an electric telescopic rod (605) is installed on the mounting plate (606), the telescopic end of the electric telescopic rod (605) is fixedly connected with the rack (603), an adjusting gear (601) is fixedly connected to the outside of the supporting round rod (2), and the adjusting gear (601) is meshed with the rack (603).

6. A building environment monitoring device according to claim 5, wherein: the monitoring assembly comprises a wind vane (7), a noise monitor (8), a shutter box (9) and an anemometer (10) which are fixedly arranged on a first mounting seat (505);

the outside that supports round bar (2) is located the top fixed mounting of monitoring case (3) has second mount pad (12), is provided with solar panel (11) on second mount pad (12).

7. A method of using a building environment monitoring device according to claim 6, wherein: the method comprises the following steps:

step one, outside air enters a monitoring box (3) through a filter plate (420) on a ventilation frame (418) to be ventilated and radiated, and meanwhile, dust is filtered by the filter plate (420);

step two, starting a power driving assembly to drive a main rotating shaft (403) to rotate, wherein the main rotating shaft (403) rotates to drive a roller (406) to rotate through a rotating rod (404), the roller (406) periodically pushes against a protruding part (421) in the rotating process, so that a beating block (422) of a beating rod (408) is separated from a filter plate (420), an elastic assembly is extruded, and when the roller (406) is separated from the protruding part (421), the elastic assembly instantaneously rebounds to drive the protruding part (421) on the beating rod (408) to beat the filter plate (420);

step three, when raining, the telescopic cylinder (506) works to drive the supporting block (512) to move upwards through the lifting column (513) so that the rain shielding plate (501) covers the upper part of the first mounting seat (505) to protect the monitoring assembly and the solar power generation plate (11), at the moment, the water tank (502) on the rain shielding plate (501) guides rainwater, and meanwhile, the air pump (514) is started to blow out air through the first hollow air box (504) and the second hollow air box (508) so that the blown-out air blows the rainwater away;

fourth, when sunny days, the telescopic cylinder (506) works and pulls the support block (512) to move downwards through the lifting column (513), so that the rain shielding plate (501) rotates through the third rotating shaft (511) to be folded, and the normal use of the solar power generation plate (11) is prevented from being influenced.