CN216051224U - Green construction high accuracy environmental monitoring equipment - Google Patents

Abstract

The utility model provides a green construction high accuracy environmental monitoring equipment, including monitoring mechanism and solar energy mechanism, through having set up monitoring mechanism inside the work box, set up second hydraulic pump and hydraulic pressure regulation pole, be favorable to improving the altitude mixture control effect to monitoring part, set up link and first servo motor, be favorable to improving the angle modulation effect to monitoring part, set up filter bag net and air velocity transducer, be favorable to improving the filtration and the angry flu response effect to the dust, through having set up solar energy mechanism and placing the roof top, set up rolling disc and second servo motor, improve the angle modulation effect to solar energy storage panel, set up light intensity sensor and electric putter, be favorable to improving the sensing effect to sunshine and the altitude mixture control effect to solar energy storage panel.

Description

Green construction high accuracy environmental monitoring equipment

Technical Field

The utility model relates to the field related to environment monitoring, in particular to environment monitoring equipment with high precision for green construction.

Background

The green construction refers to the construction process of saving resources and reducing construction activities which have negative influences on the environment to the maximum extent through scientific management and technical progress in the engineering construction under the premise of ensuring the basic requirements of quality, safety and the like, and realizes four-section and one-environment protection (energy conservation, land conservation, water conservation, material conservation and environmental protection); the environment monitoring means the activity of monitoring and measuring the environment quality condition by an environment monitoring mechanism; the environmental monitoring is to monitor and measure the index reflecting the environmental quality to determine the environmental pollution condition and the environmental quality; the environment monitoring mainly comprises the monitoring of physical indexes, the monitoring of chemical indexes and the monitoring of an ecosystem.

Most of the existing devices adopt a single mode to carry out remote sensing monitoring work, and the position of the dust monitoring device is fixed, so that the dust monitoring device has larger use limitation, the sensing effect of sensing and remote sensing parts is poor easily, and the monitored data is single, so that the requirement of high-precision detection work is difficult to be executed; the existing device is difficult to adjust according to the conditions of wind direction and sunlight angle on site, and the high-precision detection effect on the air flow is difficult to realize.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned defects, the utility model provides a high-precision environment monitoring device for green construction.

The utility model is realized in such a way that a high-precision environment monitoring device for green construction is constructed, the device comprises a base and a liquid storage tank, the periphery of the bottom of the base is connected with movable wheels through bolts, the top of the base is connected with a working tank through bolts, the front end of an inner groove of the working tank is connected with a maintenance bin door through a hinge, a placing top plate is arranged above the working tank, inclined spray nozzle pipelines are arranged on the front side and the rear side of the placing top plate, a water inlet in the bottom of the placing top plate is connected with a pipeline in the top of a connecting water pipe, the connecting water pipe is connected with a water inlet pipeline of a first hydraulic pump, the bottom of the first hydraulic pump is connected with the top of the working tank through bolts, a monitoring mechanism is arranged in the working tank, and the monitoring mechanism comprises a second hydraulic pump, a hydraulic adjusting rod, a connecting joint, a first servo motor, an auxiliary mechanism, a rotating suspender, a filtering air pipe, a filtering bag net, an air speed sensor, The bottom in the working box is connected with a second hydraulic pump through a bolt, a water inlet of the second hydraulic pump is connected with a liquid storage box through a pipeline, a water outlet of the second hydraulic pump is connected with a hydraulic adjusting rod through a pipeline, the bottom of the hydraulic adjusting rod is connected with the bottom in the working box through a bolt, a piston rod at the top of the hydraulic adjusting rod is connected with a connecting joint, the top of the connecting joint is rotationally connected with a placing top plate, the inner wall of the connecting joint is connected with a first servo motor through a bolt, the moving end of the first servo motor coaxially rotates with the placing top plate, an auxiliary mechanism is arranged on the left side of the top of the placing top plate, the left side of the bottom of the placing top plate is rotationally connected with a rotating suspender, the bottom of the rotating suspender is fixedly connected with a connecting joint of a filtering air pipe, and the filtering inner wall of the air pipe is connected with a filter bag net through a bolt, filter tuber pipe inner wall right side and air velocity transducer bolted connection, filter tuber pipe bottom discharge gate and air hose connection, air hose connection bottom and holding trough top pipe connection, the inside high accuracy weight inductor that is equipped with of holding trough, bottom left side and programmable controller bolted connection in the work box, second hydraulic pump, first servo motor, air velocity transducer and high accuracy weight inductor all with programmable controller electric signal connection, second hydraulic pump, first servo motor, air velocity transducer, high accuracy weight inductor and programmable controller all are connected with the control panel electricity, solar energy mechanism locates places roof top right side.

Preferably, the solar mechanism comprises a rotating disc, a second servo motor, a mounting seat, a solar energy storage plate, a illuminance sensor and an electric push rod, a groove on the right side of the top of the placing top plate is rotationally connected with the rotating disc, the bottom of the rotating disc coaxially rotates with the moving end of the second servo motor, the second servo motor is in bolted connection with the inner groove wall of the placing top plate, the left side and the right side of the top of the rotating disc are in bolted connection with the mounting seat, the mounting seat on the right side of the top of the rotating disc is rotationally connected with the solar energy storage plate, the left side of the bottom of the solar energy storage plate is in bolted connection with the illuminance sensor, the mounting seat on the left side of the top of the rotating disc is rotationally connected with the electric push rod, a piston rod of the electric push rod is rotationally connected with the bottom of the solar energy storage plate, and the second servo motor, the solar energy storage plate, the illuminance sensor and the electric push rod are in electrical signal connection with the programmable controller, and the second servo motor, the solar energy storage plate, the illuminance sensor and the electric push rod are electrically connected with the control panel.

Preferably, complementary unit includes torque sensor, dwang, particulate matter remote sensing detector, connecting piece and wind vane, place roof top left part recess and torque sensor bolted connection, torque sensor inside wall and dwang fixed connection, dwang outside medial side and particulate matter remote sensing detector bolted connection, the outside top side of dwang and connecting piece bolted connection, connecting piece and wind vane left end face bolted connection, torque sensor and particulate matter remote sensing detector all with programmable controller electric signal connection, torque sensor and particulate matter remote sensing detector all with control panel electric connection.

Preferably, work box left end face with push away handle bolted connection, work box top right side front side and control panel bolted connection, control panel right-hand member and electric wire fixed connection, first hydraulic pump water inlet and liquid reserve tank pipe connection, bottom bolted connection in liquid reserve tank and the work box, first hydraulic pump and electric wire all are connected with control panel electricity.

Preferably, the left end of the filtering air pipe is provided with a horn-shaped air guide cover with an opening diameter of 30 cm, and the filtering air pipe and the material containing groove are in parallel relation.

Preferably, the end face of the filter bag net and the inner right wall of the connecting air pipe are positioned on the same vertical line, and the connecting air pipe and the connecting water pipe are in vertical relation with the top of the working box.

Preferably, the particulate matter remote sensing detector is in parallel relation with the wind vane, and the wind vane is in perpendicular relation with the rotating rod.

Preferably, the rotation angle interval of the solar energy storage plate is 0-90 degrees, and the end face of the solar energy storage plate is parallel to the sensing head of the illuminance sensor.

Preferably, the material of the rotating suspension rod is steel.

Preferably, the material of the wind vane is plastic.

The utility model has the following advantages: the utility model provides environment monitoring equipment with high precision for green construction through improvement, compared with the equipment of the same type, the environment monitoring equipment has the following improvement:

according to the environment monitoring equipment with high precision for green construction, the monitoring mechanism is arranged in the working box, the second hydraulic pump and the hydraulic adjusting rod are arranged, the height adjusting effect on the monitoring part is favorably improved, the connecting joint and the first servo motor are arranged, the angle adjusting effect on the monitoring part is favorably improved, the filter bag net and the wind speed sensor are arranged, the dust filtering and gas flow responding effects are favorably improved, the high-precision weight sensor and the programmable controller are arranged, and the monitoring effect on the dust amount and the control automation degree are favorably improved.

According to the environment monitoring equipment with high precision for green construction, the solar mechanism is arranged at the top of the placing top plate, the rotating disc and the second servo motor are arranged, so that the angle adjusting effect on the solar energy storage plate is improved, and the illuminance sensor and the electric push rod are arranged, so that the sunlight sensing effect and the height adjusting effect on the solar energy storage plate are improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the monitoring mechanism and the top plate;

FIG. 3 is an enlarged schematic view of the utility model at A in FIG. 2;

FIG. 4 is a schematic view of the auxiliary mechanism of the present invention;

fig. 5 is a schematic structural view of the solar mechanism of the present invention.

Wherein: a base-1, a moving wheel-2, a work box-3, a maintenance door-4, a top placing plate-5, a monitoring mechanism-6, a solar mechanism-7, an inclined nozzle-8, a connecting water pipe-9, a first hydraulic pump-10, a push handle-11, a control panel-12, an electric wire-13, a liquid storage box-14, a second hydraulic pump-61, a hydraulic adjusting rod-62, a connecting joint-63, a first servo motor-64, an auxiliary mechanism-65, a rotating suspension rod-66, a filtering air pipe-67, a filter bag net-68, an air speed sensor-69, a connecting air pipe-610, a material containing groove-611, a high-precision weight sensor-612, a programmable controller-613, a torque sensor-651, a rotating rod-652, a rotating rod-13, a motor-6, a motor-9, a motor-6, a motor, a, The device comprises a remote particulate matter detector-653, a connecting piece-654, a wind vane-655, a rotary disc-71, a second servo motor-72, a mounting seat-73, a solar energy storage plate-74, a light intensity sensor-75 and an electric push rod-76.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the environment monitoring device with high precision for green construction of the utility model comprises a base 1, a movable wheel 2, a working box 3, a maintenance door 4, a top plate 5, a monitoring mechanism 6, a solar mechanism 7, an inclined nozzle 8, a connecting water pipe 9, a first hydraulic pump 10, a push handle 11, a control panel 12, an electric wire 13 and a liquid storage tank 14, wherein the periphery of the bottom of the base 1 is connected with the movable wheel 2 through bolts, the top of the base 1 is connected with the working box 3 through bolts, the front end of an inner groove of the working box 3 is hinged with the maintenance door 4, the top plate 5 is arranged above the working box 3, the inclined nozzles 8 are arranged on the front side and the rear side of the top plate 5, a water inlet at the bottom of the top plate 5 is connected with a pipeline at the top of the connecting water pipe 9, the connecting water pipe 9 is connected with a water inlet pipeline of the first hydraulic pump 10, the bottom of the first hydraulic pump 10 is connected with the top of the working box 3 through bolts, 3 left end faces of work box with push away 11 bolted connection of handle, 3 right front sides in top of work box and control panel 12 bolted connection, 12 right-hand members of control panel and 13 fixed connection of electric wire, first hydraulic pump 10 water inlet and 14 pipe connections of liquid reserve tank, bottom bolted connection in liquid reserve tank 14 and the work box 3, first hydraulic pump 10 and electric wire 13 all are connected with control panel 12 electricity.

Referring to fig. 2, 3 and 4, the environment monitoring device with high precision for green construction according to the present invention includes a monitoring mechanism 6 disposed inside a working box 3 to improve the high precision of monitoring operation, the monitoring mechanism 6 includes a second hydraulic pump 61, a hydraulic adjusting rod 62, a connecting joint 63, a first servo motor 64, an auxiliary mechanism 65, a rotary boom 66, a filter air pipe 67, a filter bag net 68, an air velocity sensor 69, a connecting air pipe 610, a material containing tank 611, a high precision weight sensor 612 and a programmable controller 613, the bottom of the working box 3 is bolted to the second hydraulic pump 61 to improve the fixing effect of the second hydraulic pump 61, the water inlet of the second hydraulic pump 61 is connected to a liquid storage tank 14 to improve the driving effect of the second hydraulic pump 61, the water outlet of the second hydraulic pump 61 is connected to the hydraulic adjusting rod 62 to improve the flow guiding effect of the second hydraulic pump 61, the bottom of the hydraulic adjusting rod 62 is bolted to the bottom of the working box 3, the fixing effect of the hydraulic adjusting rod 62 is improved, a piston rod at the top of the hydraulic adjusting rod 62 is connected with the connecting joint 63, the fixing effect of the connecting joint 63 is improved, the top of the connecting joint 63 is rotatably connected with the placing top plate 5, the driving effect of the connecting joint 63 is improved, the inner wall of the connecting joint 63 is in bolt connection with the first servo motor 64, the fixing effect of the first servo motor 64 is improved, the axial moving end of the first servo motor 64 is coaxially rotated with the placing top plate 5, the driving effect of the first servo motor 64 is improved, an auxiliary mechanism 65 is arranged on the left side of the top of the placing top plate 5, the wind direction control effect is improved, the left side of the bottom of the placing top plate 5 is rotatably connected with the rotating suspender 66, the rotating effect of the rotating suspender 66 is improved, the connecting joint of the bottom of the rotating suspender 66 and the filtering air pipe 67 is fixedly connected, the driving effect of the rotating suspender 66 is improved, the inner wall of the filtering air pipe 67 is in bolt connection with the filter bag net 68, the fixing effect of the filter bag net 68 is improved, the right side of the inner wall of the filter air pipe 67 is in bolted connection with the air speed sensor 69, the fixing effect of the air speed sensor 69 is improved, the discharge port at the bottom of the filter air pipe 67 is in pipe connection with the connecting air pipe 610, the flow guide effect of the connecting air pipe 610 is improved, the bottom of the connecting air pipe 610 is in pipe connection with the top of the material containing groove 611, the feeding effect of the material containing groove 611 is improved, the high-precision weight sensor 612 is arranged inside the material containing groove 611, the monitoring work precision is improved, the left side of the bottom inside the work box 3 is in bolted connection with the programmable controller 613, the fixing effect of the programmable controller 613 is improved, the second hydraulic pump 61, the first servo motor 64, the air speed sensor 69 and the high-precision weight sensor 612 are in electric signal connection with the programmable controller 613, the control effect of the programmable controller 613 is improved, and the second hydraulic pump 61, the first servo motor 64 and the air speed sensor 69 are in electric signal connection with the programmable controller 613, The high-precision weight sensor 612 and the programmable controller 613 are electrically connected with the control panel 12, the solar mechanism 7 is arranged on the right side of the top plate 5 to improve the solar energy storage effect, the auxiliary mechanism 65 comprises a torque sensor 651, a rotating rod 652, a particulate matter remote sensing detector 653, a connecting piece 654 and a wind vane 655, a groove on the left side of the top plate 5 is connected with the torque sensor 651 through a bolt, the fixing effect of the torque sensor 651 is improved, the inner side wall of the torque sensor 651 is fixedly connected with the rotating rod 652, the monitoring effect of the torque sensor 651 is improved, the outer middle side of the rotating rod 652 is connected with the particulate matter remote sensing detector 653 through a bolt, the fixing effect of the particulate matter remote sensing detector 653 is improved, the outer top side of the rotating rod 652 is connected with the connecting piece 654 through a bolt, the fixing effect of the connecting piece 654 is improved, the connecting piece 654 is connected with the left end face of the wind vane 655 through a bolt, and the fixing effect of the wind vane 655 is improved, torque sensor 651 and particulate matter remote sensing detector 653 all with programmable controller 613 electricity signal connection, torque sensor 651 and particulate matter remote sensing detector 653 all are connected with control panel 12 electricity, it is 30 centimetres loudspeaker form wind scoopers to filter the tuber pipe 67 left end and be equipped with opening diameter, and it is parallel relation to filter tuber pipe 67 and holding silo 611, improve the water conservancy diversion effect of filtering tuber pipe 67, filter bag net 68 terminal surface is in same vertical line with the interior right wall of linking tuber pipe 610, and linking tuber pipe 610 and connecting water pipe 9 all are perpendicular relation with the workbin 3 top, improve the filter effect of filter bag net 68, particulate matter remote sensing detector 653 and wind vane 655 are parallel relation, and wind vane 655 is perpendicular relation with dwang 652, improve the guide effect of wind vane 655.

Referring to fig. 5, the high-precision environment monitoring device for green construction of the present invention includes a solar mechanism 7 including a rotary disc 71, a second servo motor 72, a mounting seat 73, a solar energy storage plate 74, a illuminance sensor 75 and an electric push rod 76, wherein a groove on the top right side of a top plate 5 is rotatably connected to the rotary disc 71 to improve the rotation effect of the rotary disc 71, the bottom of the rotary disc 71 coaxially rotates with the axial moving end of the second servo motor 72 to improve the driving effect of the second servo motor 72, the second servo motor 72 is connected to a slot wall bolt in the top plate 5 to improve the fixing effect of the second servo motor 72, the left and right sides of the top of the rotary disc 71 are both connected to the mounting seat 73 to improve the fixing effect of the mounting seat 73, the mounting seat 73 on the top right side of the rotary disc 71 is rotatably connected to the solar energy storage plate 74 to improve the adjusting effect of the solar energy storage plate 74, the left side of the bottom of the solar energy storage plate 74 is connected to the illuminance sensor 75 by a bolt, the fixing effect of the illuminance sensor 75 is improved, the mounting base 73 on the left side of the top of the rotating disc 71 is rotatably connected with the electric push rod 76, the adjusting effect of the electric push rod 76 is improved, the piston rod of the electric push rod 76 is rotatably connected with the bottom of the solar energy storage plate 74, the driving effect of the electric push rod 76 is improved, the second servo motor 72, the solar energy storage plate 74, the illuminance sensor 75 and the electric push rod 76 are in electric signal connection with the programmable controller 613, the second servo motor 72, the solar energy storage plate 74, the illuminance sensor 75 and the electric push rod 76 are electrically connected with the control panel 12, the rotating angle interval of the solar energy storage plate 74 is 0-90 degrees, the end face of the solar energy storage plate 74 is parallel to the sensing head of the illuminance sensor 75, and the sensing effect of the illuminance sensor 75 is improved.

The utility model provides environment monitoring equipment with high precision for green construction through improvement, and the working principle is as follows;

firstly, when the equipment is used, the equipment is placed in a working area, and then the device is connected with an external power supply, so that the power supply required by the work of the equipment can be provided;

secondly, the worker programs the programmable controller 613 through an external computer, then the external pipeline of the worker stores water in the liquid storage tank 14, the programmable controller 613 is controlled through the control panel 12 to monitor the water, the programmable controller 613 controls the second hydraulic pump 61 to drive the water in the liquid storage tank 14 to enter the hydraulic adjusting rod 62, so that the hydraulic adjusting rod 62 drives the top plate 5 to move upwards, then the wind vane 655 and the rotating rod 652 are driven by air flow to rotate along the air flow direction, the direction is set as the initial working direction, meanwhile, the remote particulate matter sensing detector 653 works, the remote particulate matter sensing detector 653 senses the dust content of the air flow entering the interior of the remote particulate matter sensing detector 653, the torque sensor 651 senses the rotating angle of the rotating rod 652, the torque sensor 651 drives the top plate 5 to rotate through the first servo motor 64 after being calculated through the programmable controller 613, so that the placing top plate 5 drives the opening at the left end of the filtering air pipe 67 to face the initial direction, the air flow enters the filtering air pipe 67, and the dust and impurities in the air flow are isolated through the filter bag net 68;

thirdly, the air flow is discharged through a right port of the filtering air pipe 67, at the moment, the air speed sensor 69 monitors the flow speed of the air flow, dust falls into the inside of the high-precision weight sensor 612 inside the containing groove 611 through the connecting air pipe 610 after being blocked, the high-precision weight sensor 612 senses the weight change twice before and after and simultaneously records the rising curve of the weight data, when the weight data rises too fast, the programmable controller 613 judges that the air quality with dust content is unqualified, the warning action is carried out on a worker through the control panel 12, meanwhile, the programmable controller 613 controls the first hydraulic pump 10 to work, the first hydraulic pump 10 drives water inside the liquid storage tank 14 to be sprayed out through the inclined spray head 8 to carry out dust fall work, and the high-precision monitoring effect is improved;

fourthly, the worker controls the solar energy storage plate 74 and the illuminance sensor 75 to work through the control panel 12, the illuminance sensor 75 can collect an angle between sunlight and an end face of the solar energy storage plate 74 when working, then the illuminance sensor 75 sends data to the programmable controller 613, the programmable controller 613 calculates an angle rotation value, then controls the second servo motor 72 to work, the rotating disc 71 drives the solar energy storage plate 74 to rotate along with the sunlight, and then the electric push rod 76 is controlled to drive the solar energy storage plate 74 to rotate, so that the solar energy storage plate 74 and the sunlight are in a vertical relation, the energy storage effect of the solar energy storage plate 74 is improved, and the reduction of the energy storage effect caused by air detection is avoided.

The utility model provides environment monitoring equipment with high precision for green construction through improvement, which is provided with a second hydraulic pump 61 and a hydraulic adjusting rod 62, is beneficial to improving the height adjusting effect of a monitoring part, is provided with a connecting joint 63 and a first servo motor 64, is beneficial to improving the angle adjusting effect of the monitoring part, is provided with a filter bag net 68 and a wind speed sensor 69, is beneficial to improving the dust filtering and airflow responding effects, is provided with a high-precision weight sensor 612 and a programmable controller 613, is beneficial to improving the dust amount monitoring effect and controlling the automation degree, is provided with a rotating disc 71 and a second servo motor 72, is beneficial to improving the angle adjusting effect of a solar energy storage plate 74, and is provided with a light intensity sensor 75 and an electric push rod 76, and is beneficial to improving the sunlight sensing effect and the height adjusting effect of the solar energy storage plate 74.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The environment monitoring equipment comprises a base (1) and a liquid storage tank (14), wherein the periphery of the bottom of the base (1) is connected with a movable wheel (2) through bolts, the top of the base (1) is connected with a working tank (3) through bolts, the front end of an inner groove of the working tank (3) is hinged with a maintenance bin door (4), a placing top plate (5) is arranged above the working tank (3), inclined spray heads (8) are arranged on the front side and the rear side of the placing top plate (5) and connected through pipelines, a water inlet in the bottom of the placing top plate (5) is connected with a pipeline at the top of a connecting water pipe (9), the connecting water pipe (9) is connected with a water inlet pipeline of a first hydraulic pump (10), and the bottom of the first hydraulic pump (10) is connected with the top of the working tank (3) through bolts;

the method is characterized in that: the solar energy water-saving device is characterized by further comprising a monitoring mechanism (6) and a solar mechanism (7), wherein the monitoring mechanism (6) is arranged inside the working box (3), the monitoring mechanism (6) comprises a second hydraulic pump (61), a hydraulic adjusting rod (62), a connecting joint (63), a first servo motor (64), an auxiliary mechanism (65), a rotating suspender (66), a filtering air pipe (67), a filter bag net (68), an air speed sensor (69), a connecting air pipe (610), a material containing groove (611), a high-precision weight sensor (612) and a programmable controller (613), the bottom of the working box (3) is in bolted connection with the second hydraulic pump (61), the water inlet of the second hydraulic pump (61) is in pipeline connection with the liquid storage box (14), the water outlet of the second hydraulic pump (61) is in pipeline connection with the hydraulic adjusting rod (62), the bottom of the hydraulic adjusting rod (62) is in bolted connection with the working box (3), the hydraulic adjusting rod (62) top piston rod is connected with a connecting joint (63), the top of the connecting joint (63) is rotatably connected with a placing top plate (5), the inner wall of the connecting joint (63) is connected with a first servo motor (64) through a bolt, the axial moving end of the first servo motor (64) is coaxially rotated with the placing top plate (5), an auxiliary mechanism (65) is arranged on the left side of the top of the placing top plate (5), the left side of the bottom of the placing top plate (5) is rotatably connected with a rotating suspender (66), the bottom of the rotating suspender (66) is fixedly connected with the connecting joint of a filtering air pipe (67), the inner wall of the filtering air pipe (67) is connected with a filtering bag net (68) through a bolt, the right side of the inner wall of the filtering air pipe (67) is connected with a wind speed sensor (69) through a bolt, the discharge hole at the bottom of the filtering air pipe (67) is connected with a connecting air pipe (610) through a pipeline, the bottom of the connecting air pipe (610) is connected with a material containing groove (611) through a pipeline, the solar energy weight sensor comprises a material containing groove (611), a high-precision weight sensor (612) is arranged inside the material containing groove (611), the left side of the bottom in the working box (3) is connected with a programmable controller (613) through bolts, a second hydraulic pump (61), a first servo motor (64), an air speed sensor (69) and the high-precision weight sensor (612) are all in electrical signal connection with the programmable controller (613), the second hydraulic pump (61), the first servo motor (64), the air speed sensor (69), the high-precision weight sensor (612) and the programmable controller (613) are all in electrical signal connection with a control panel (12), and a solar energy mechanism (7) is arranged on the right side of the top of a top plate (5).

2. The environment monitoring equipment for green construction high precision according to claim 1, characterized in that: the solar mechanism (7) comprises a rotating disc (71), a second servo motor (72), a mounting seat (73), a solar energy storage plate (74), a light intensity sensor (75) and an electric push rod (76), a groove on the right side of the top plate (5) is rotatably connected with the rotating disc (71), the bottom of the rotating disc (71) and the shaft moving end of the second servo motor (72) rotate coaxially, the second servo motor (72) is connected with a groove wall bolt in the top plate (5), the left side and the right side of the top of the rotating disc (71) are both connected with the mounting seat (73) through bolts, the mounting seat (73) on the right side of the top of the rotating disc (71) is rotatably connected with the solar energy storage plate (74), the left side of the bottom of the solar energy storage plate (74) is connected with the light intensity sensor (75) through bolts, the mounting seat (73) on the left side of the top of the rotating disc (71) is rotatably connected with the electric push rod (76), the electric push rod (76) is connected with the bottom of the solar energy storage plate (74) in a rotating mode, the second servo motor (72), the solar energy storage plate (74), the illuminance sensor (75) and the electric push rod (76) are all connected with the programmable controller (613) in an electric signal mode, and the second servo motor (72), the solar energy storage plate (74), the illuminance sensor (75) and the electric push rod (76) are all electrically connected with the control panel (12).

3. The environment monitoring equipment for green construction high precision according to claim 1, characterized in that: the auxiliary mechanism (65) comprises a torque sensor (651), a rotating rod (652), a particulate matter remote sensing detector (653), a connecting piece (654) and a wind vane (655), a left groove at the top of the top plate (5) is connected with the torque sensor (651) through a bolt, the inner side wall of the torque sensor (651) is fixedly connected with the rotating rod (652), the outer middle side of the rotating rod (652) is connected with the particulate matter remote sensing detector (653) through a bolt, the outer top side of the rotating rod (652) is connected with the connecting piece (654) through a bolt, the connecting piece (654) is connected with the left end face of the wind vane (655) through a bolt, the torque sensor (651) and the particulate matter remote sensing detector (653) are both connected with an electric signal of a programmable controller (613), and the torque sensor (651) and the particulate matter remote sensing detector (653) are both electrically connected with the control panel (12).

4. The environment monitoring equipment for green construction high precision according to claim 1, characterized in that: work box (3) left end face with push away handle (11) bolted connection, right front side and control panel (12) bolted connection in work box (3) top, control panel (12) right-hand member and electric wire (13) fixed connection, first hydraulic pump (10) water inlet and liquid reserve tank (14) pipe connection, bottom bolted connection in liquid reserve tank (14) and work box (3), first hydraulic pump (10) and electric wire (13) all are connected with control panel (12) electricity.

5. The environment monitoring equipment for green construction high precision according to claim 1, characterized in that: the left end of the filtering air pipe (67) is provided with a horn-shaped air guide cover with the opening diameter of 30 cm, and the filtering air pipe (67) and the material containing groove (611) are in parallel relation.

6. The environment monitoring equipment for green construction high precision according to claim 1, characterized in that: the end face of the filter bag net (68) and the inner right wall of the connecting air pipe (610) are positioned on the same vertical line, and the connecting air pipe (610) and the connecting water pipe (9) are both in vertical relation with the top of the working box (3).

7. The environment monitoring equipment for green construction high precision according to claim 3, characterized in that: the remote particulate matter detector (653) is in parallel with the wind vane (655), and the wind vane (655) is in perpendicular relation with the rotating rod (652).

8. The environment monitoring equipment for green construction high precision according to claim 2, characterized in that: the rotation angle interval of the solar energy storage plate (74) is 0-90 degrees, and the end face of the solar energy storage plate (74) is parallel to the sensing head of the illuminance sensor (75).

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