CN108945410B - Environmental protection device for building construction - Google Patents

Abstract

The invention discloses an environment protection device for building construction, which structurally comprises a machine arm, a machine body protective shell, a continuous range dust suppression device, a water receiving pipe, support legs, a connecting block and spiral wings, wherein the top end of the continuous range dust suppression device is installed in the machine body protective shell in an embedded mode, the machine arm is provided with four support legs, one end of each support leg, which is far away from the connecting block, is fixedly installed at the four corners of the machine body protective shell in an electric welding mode, the top ends of the support legs are fixedly connected to the lower surface of one end, which is close to the machine body protective shell, of the machine arm in an electric welding mode, and the top end of the water receiving pipe is installed under the machine body protective shell in an embedded mode. And manual real-time monitoring operation is not needed, so that the dust settling effect is improved.

Description

Environmental protection device for building construction

Technical Field

The invention relates to the field of building construction, in particular to an environment protection device for building construction.

Background

The building is a general name of buildings and structures, is an artificial environment created by people by using a grasped matter technical means and applying a certain scientific law, a wind and water concept and an aesthetic rule in order to meet the needs of social life, is a production activity in the engineering construction implementation stage, is a construction process of various buildings, can be called a process of changing various lines on a design drawing into a real object in a specified place, and comprises foundation engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like, the construction operation place is called a building construction site or a construction site, and is also called a construction site.

For the existing environment protection device for building construction, water spraying is mostly adopted for construction site to carry out dust fall, and a water spraying vehicle needs manual real-time operation, the water spraying amount is large, the spraying range is small, and therefore the dust fall effect is poor.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: environmental protection device for construction, its structure includes horn, organism protective housing, continuous range dust device, water receiving pipe, stabilizer blade, connecting block, spiral wing, the mode that continuous range dust device top was through the embedding is installed inside the organism protective housing, the horn is equipped with four altogether and keeps away from connecting block one end and adopts the mode fixed mounting of electric welding in organism protective housing four corners, the mode fixed connection that the stabilizer blade top adopted the electric welding is close to organism protective housing one end lower surface in the horn, the water receiving pipe top is installed under the organism protective housing through the mode of embedding, the spiral wing is close to connecting block axle center position one end and is installed together at spiral wing fixed connection through the mode of embedding.

Continuous range dust device starts group, automatic pressurization mechanism, energy conversion mechanism, extraction conveying mechanism including rotatory sprinkler mechanism, atmospheric pressure, the inside top fixed mounting of organism protective housing has the energy conversion mechanism, be equipped with atmospheric pressure under the atmospheric pressure starts the group and connect rather than the electricity through the wire, be equipped with extraction conveying mechanism under the atmospheric pressure starts the group and rather than fixed connection together, rotatory sprinkler mechanism respectively is equipped with two and locates atmospheric pressure respectively with automatic pressurization mechanism and starts the group both ends about.

As a further optimization of this technical scheme, rotatory spraying mechanism is including separation rotary drum, spiral leaf fixed block, ball, spacing change, a water guide cylinder, reposition of redundant personnel conical head, high pressure nozzle, dispersion nozzle, carousel, spacing change bottom and spacing change right-hand member fixed connection are in the same place, the ball is equipped with four altogether and adopts the mode of electric welding fixed mounting respectively in spacing change bottom four corners, water guide cylinder bottom adopts the mode fixed connection of electric welding on the carousel top, the carousel bottom is installed on the top through the mode of embedding, reposition of redundant personnel conical head top and the mode fixed connection that adopts electric welding are integrated structure on inside top, separation rotary drum surface and the laminating of spiral leaf fixed block inner ring face.

As a further optimization of the technical scheme, the pneumatic starting group comprises a first conducting rod, a second conducting rod, a locking ring and a starting mechanism, one end of the first conducting rod, which is close to the second conducting rod, is installed at one end of the starting mechanism, which is far away from the second conducting rod, in an embedded manner, one end of the second conducting rod, which is close to the first conducting rod, is installed at one end of the starting mechanism, which is far away from the first conducting rod, in an embedded manner, and the outer surface of the starting mechanism is installed inside the locking ring in an embedded manner.

As a further optimization of this technical scheme, automatic pressurization mechanism triggers a section of thick bamboo including strengthening frame, miniature gas tube, power connecting wire, pressure slip, the mode fixed connection that the strengthening frame top adopted the electric welding is on the inside top of organism protective housing, power connecting wire top is in the same place with energy conversion mechanism one end fixed connection, pressure slip triggers a section of thick bamboo and installs on the positive terminal surface right side of miniature gas tube through the mode of embedding, miniature gas tube is kept away from pressure slip and is triggered a section of thick bamboo right-hand member and install through the mode of embedding and be close to power connecting wire one end at the strengthening frame.

As a further optimization of the technical scheme, the energy conversion mechanism comprises a light energy collecting plate, an electric energy conversion plate, an output terminal, a storage battery and a battery fixing frame, the light energy collecting plate is installed on the top end of the machine body protection shell in an embedded mode, the machine body protection shell is fixedly installed on the top end inside the machine body protection shell, the back of the output terminal is fixedly connected to the positive end face of the electric energy conversion plate in an electric welding mode, the storage battery is integrally installed inside the battery fixing frame in an embedded mode, and one end of the storage battery is fixedly connected with the top end of the power connecting wire.

As a further optimization of the technical scheme, the pumping and conveying mechanism comprises a pump machine limiting frame, a connecting sleeve, a receiving terminal, a pump machine, a hard water pipe and a built-in guide pipe, one end, far away from the pump machine, of the hard water pipe is installed inside the top end in an embedded mode, the left end and the right end of the pump machine are installed inside the pump machine limiting frame in an embedded mode, the back of the receiving terminal is fixedly connected to the front end face of the pump machine in an electric welding mode, the head end of the built-in guide pipe is installed at the bottom end of the rotary spraying mechanism in an embedded mode, and the tail end of the built-in guide pipe is installed at the top end of the.

As a further optimization of the technical scheme, the starting mechanism comprises a triggering mechanism and a pushing mechanism, the triggering mechanism is arranged right above the pushing mechanism, the triggering mechanism comprises a sealing ring, an inner pipe casing, a push plate, a sliding ball, a guide rail and a folded spring tube, the outer annular surface of the sealing ring is fixedly connected with the inside of the bottom end of the pushing mechanism in an embedded mode, one end, far away from the push plate, of the folded spring tube is installed at the top end of the sealing ring in an embedded mode, one end, far away from the folded spring tube, of the guide rail is fixedly connected to the left side and the right side inside the inner pipe casing in an electric welding mode, one end, far away from the sliding ball, of the sliding ball is installed at the left end and the right end in an embedded.

As a further optimization of this technical scheme, pushing mechanism includes that outer tube shell, the electrically conductive output rod of elasticity, pressurize mouth, outer leakage mouth, the electrically conductive receiving rod of elasticity, outer tube shell top and outer tube shell are integrated structures, pressurize mouth and the upper right end of inner tube shell are integrated structures, the electrically conductive output rod of elasticity is located the electrically conductive receiving rod lower extreme of elasticity and is kept away from the electrically conductive receiving rod one end of elasticity and run through in inner tube shell left surface, the electrically conductive receiving rod of elasticity is kept away from the electrically conductive output rod of elasticity one end and is fixed at outer tube shell right side and lean on the upper position through the mode of embedding.

Advantageous effects

The invention relates to an environment protection device for building construction, wherein an unmanned aerial vehicle is subjected to fixed-point limiting on the height by the length of a water receiving pipe during the rising period of the unmanned aerial vehicle, when the atmospheric pressure value in a pressure sliding trigger cylinder is smaller than the external atmospheric pressure when the unmanned aerial vehicle rises to a rated height, an internal conductive top block rises to be contacted with a power supply connecting wire, so that the power supply connection of a micro inflation pipe and the power supply connecting wire is switched on, current is led into the micro inflation pipe through the power supply connecting wire, the micro inflation pipe converts electric energy into wind energy, the wind energy enters a starting mechanism through a hollow guide pipe at the bottom, because the upper end surface and the lower end surface of a push plate are in a semi-closed state, when the air pressure value at the bottom end of the push plate is higher than the air pressure value at the top end of the micro inflation pipe due to continuous input of the micro inflation, the electric current is transmitted and supplied, when the electric current is input into the micro-inflation through the micro-inflation, the pump machine converts electric energy into mechanical energy through acting, generates suction force on water flow below through the water receiving pipe, reversely extracts the water flow, conveys the water flow to the rotary spraying mechanism at four ends through the built-in guide pipe, distributes the water flow with high-pressure impact force after the water flow is extracted after entering the rotary spraying mechanism at the distribution cone head, sprays the distributed water outside in a large range through the mutual matching of the high-pressure spray head and the dispersion nozzle, and humidifies dust flying in the air.

Based on the prior art, the rotary spraying mechanism is mainly matched with the extraction conveying mechanism, the unmanned aerial vehicle flexible body is used for continuously spraying water at high altitude in a large range for a long time, a large amount of dust generated in the construction environment can be adsorbed and humidified to the maximum extent through high and dense spraying, manual real-time monitoring operation is not needed, the dust falling effect is improved, and the building construction environment is protected.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the environmental protection apparatus for building construction according to the present invention.

Fig. 2 is a schematic view of the internal structure of the environmental protection apparatus for building construction according to the present invention.

Fig. 3 is a partial internal detailed structural view of the environmental protection apparatus for building construction according to the present invention.

Fig. 4 is a partially enlarged internal detailed structural view of fig. 3.

Fig. 5 is a schematic diagram of the detailed internal structure of the starting mechanism of the environmental protection device for building construction of the present invention.

FIG. 6 is a schematic diagram of the detailed internal structure of the starting mechanism of the environmental protection apparatus for building construction in a moving state.

In the figure: an arm-1, a body protection shell-2, a continuous range dust-settling device-3, a water receiving pipe-4, a support leg-5, a connecting block-6, a spiral wing-7, a rotary spraying mechanism-31, an air pressure starting group-32, an automatic pressurizing mechanism-33, an energy conversion mechanism-34, an extraction and conveying mechanism-35, a separating rotary drum-311, a spiral blade fixing block-312, a ball-313, a limiting rotary ring-314, a water guide drum-315, a shunt conical head-316, a high-pressure spray head-317, a dispersion nozzle-318, a rotary disc-319, a first conductive rod-321, a second conductive rod-322, a locking ring-323, a starting mechanism-324, a reinforcing frame-331, a micro air charging pipe-332, a power supply connecting wire-333, The device comprises a pressure sliding trigger cylinder-334, a light energy collecting plate-341, a power conversion plate-342, an output terminal-343, a storage battery-344, a battery fixing frame-345, a pump limiting frame-351, a connecting sleeve-352, a receiving terminal-353, a pump-354, a hard water pipe-355, an internal guide pipe-356, a trigger mechanism-3241, a pushing mechanism-3242, a sealing ring-32411, an inner pipe casing-32412, a push plate-32413, a sliding ball-32414, a guide rail-32415, a corrugated spring pipe-32416, an outer pipe casing-32421, an elastic conductive receiving rod-32422, a pressure maintaining port-32423, an external leakage port-32424 and an elastic conductive output rod-32425.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1 to 6, the invention provides an environment protection device for building construction, which structurally comprises a machine arm 1, a machine body protection shell 2, a continuous range dust suppression device 3, water receiving pipes 4, support legs 5, a connection block 6 and spiral wings 7, wherein the top ends of the continuous range dust suppression device 3 are installed inside the machine body protection shell 2 in an embedded mode, the machine arm 1 is provided with four support legs, one end of each support leg far away from the connection block 6 is fixedly installed at four corners of the machine body protection shell 2 in an electric welding mode, the top ends of the support legs 5 are fixedly connected to the lower surface of one end, close to the machine body protection shell 2, of the machine arm 1, the top ends of the water receiving pipes 4 are installed under the machine body protection shell 2 in an embedded mode, and one ends, close to the axis of the connection block 6.

Continuous scope dust device 3 starts group 32, automatic pressurization mechanism 33, energy conversion mechanism 34, extraction conveying mechanism 35 including rotatory sprinkling mechanism 31, atmospheric pressure, the inside top fixed mounting of organism protective housing 2 has energy conversion mechanism 34, be equipped with atmospheric pressure under the atmospheric pressure starts group 32 and is connected rather than the electricity through the wire, be equipped with extraction conveying mechanism 35 under the atmospheric pressure starts group 32 and rather than fixed connection together, rotatory sprinkling mechanism 31 respectively is equipped with two with automatic pressurization mechanism 33 and locates atmospheric pressure and start group 32 left and right sides both ends respectively.

The rotary spraying mechanism 31 comprises a separation rotating cylinder 311, a spiral blade fixing block 312, balls 313, a limiting rotating ring 314, a water guide cylinder 315, a shunting cone 316, a high-pressure spray head 317, a dispersing nozzle 318 and a rotating disc 319, wherein the bottom end of the limiting rotating ring 314 is fixedly connected with the right end of the limiting rotating ring 314, the balls 313 are provided with four balls and are fixedly mounted at four corners of the bottom end of the limiting rotating ring 314 respectively in an electric welding mode, the bottom end of the water guide cylinder 315 is fixedly connected to the top end of the rotating disc 319 in an electric welding mode, the bottom end of the rotating disc 319 is mounted at the top end in an embedding mode, the top end of the shunting cone 316 is fixedly connected to the inner top end in an electric welding mode and is of an integrated structure, and the outer surface of the separation rotating cylinder 311.

The pneumatic actuating group 32 comprises a first conducting rod 321, a second conducting rod 322, a locking ring 323 and an actuating mechanism 324, wherein one end of the first conducting rod 321, which is close to the second conducting rod 322, is mounted at one end of the actuating mechanism 324, which is far from the second conducting rod 322, in an embedded manner, one end of the second conducting rod 322, which is close to the first conducting rod 321, is mounted at one end of the actuating mechanism 324, which is far from the first conducting rod 321, in an embedded manner, and the outer surface of the actuating mechanism 324 is mounted inside the locking ring 323 in an embedded manner.

Automatic pressurization mechanism 33 triggers a section of thick bamboo 334 including strengthening frame 331, miniature gas tube 332, power connecting wire 333, pressure slip, the mode fixed connection that strengthening frame 331 top adopted the electric welding is on the inside top of organism protective housing 2, power connecting wire 333 top is in the same place with energy conversion mechanism 34 one end fixed connection, pressure slip triggers a section of thick bamboo 334 and installs on the positive terminal surface right side of miniature gas tube 332 through the mode of embedding, miniature gas tube 332 keeps away from pressure slip and triggers a section of thick bamboo 334 right-hand member and install through the mode of embedding and be close to power connecting wire 333 one end at strengthening frame 331.

The energy conversion mechanism 34 comprises a light energy collecting plate 341, an electric energy conversion plate 342, an output terminal 343, a storage battery 344 and a battery fixing frame 345, wherein the light energy collecting plate 341 is installed at the top end of the machine body protection shell 2 in an embedded manner, the machine body protection shell 2 is fixedly installed at the top end inside the machine body protection shell 2, the back of the output terminal 343 is fixedly connected to the front end face of the electric energy conversion plate 342 in an electric welding manner, the storage battery 344 is integrally installed inside the battery fixing frame 345 in an embedded manner, and one end of the storage battery 344 is fixedly connected with the top end of a power supply connecting wire 333.

The pumping and conveying mechanism 35 comprises a pump limiting frame 351, a connecting sleeve 352, a receiving terminal 353, a pump 354, a hard water pipe 355 and a built-in guide pipe 356, one end, far away from the pump 354, of the hard water pipe 355 is installed inside the top end in an embedded mode, the left end and the right end of the pump 354 are installed inside the pump limiting frame 351 in an embedded mode, the back of the receiving terminal 353 is fixedly connected to the positive end face of the pump 354 in an electric welding mode, the front end of the built-in guide pipe 356 is installed at the bottom end of the rotary spraying mechanism 31 in an embedded mode, and the tail end of the built-in guide pipe 356 is installed at the top end of the pump 354 in an embedded mode.

The starting mechanism 324 comprises a trigger mechanism 3241 and a pushing mechanism 3242, the trigger mechanism 3241 is arranged right above the pushing mechanism 3242, the trigger mechanism 3241 comprises a sealing ring 32411, an inner tube casing 32412, a push plate 32413, a sliding ball 32414, a guide rail 32415 and a corrugated spring tube 32416, the outer annular surface of the sealing ring 32411 is fixedly connected with the inside of the bottom end of the pushing mechanism 3242 in an embedded mode, one end, far away from the push plate 32413, of the corrugated spring tube 32416 is installed at the top end of the sealing ring 32411 in an embedded mode, one end, far away from the corrugated spring tube 32416, of the guide rail 32415 is fixedly connected to the left side and the right side inside of the inner tube casing 32412 in an electric welding mode, one end, far away from the sliding ball 32414, is installed at the left side and the right side in an embedded mode, and one end, far away from.

The pushing mechanism 3242 comprises an outer tube sleeve 32421, an elastic conductive output rod 32422, a pressure maintaining port 32423, an outer leakage port 32424 and an elastic conductive receiving rod 32425, the top end of the outer tube sleeve 32421 and the outer tube sleeve 32421 are integrated, the pressure maintaining port 32423 and the upper right end of the inner tube sleeve 32412 are integrated, the elastic conductive output rod 32422 is arranged at the lower end of the elastic conductive receiving rod 32425 and one end of the elastic conductive receiving rod 32425, which is far away from the elastic conductive receiving rod 32425, penetrates through the left side surface of the inner tube sleeve 32412, and one end of the elastic conductive receiving rod 32425, which is far away from the elastic conductive output rod 32422, is fixed at the upper right side position of the outer tube sleeve 32421 in.

When the unmanned aerial vehicle ascends, the unmanned aerial vehicle is limited at a fixed point in height by the length of the water receiving pipe 4, when the unmanned aerial vehicle ascends to a rated height, the atmospheric pressure value in the pressure sliding trigger cylinder 334 is smaller than the external atmospheric pressure, the inner conductive top block ascends to be in contact with the power supply connecting wire 333, so that the power supply connection of the micro inflation pipe 332 and the power supply connecting wire 333 is switched on, the current is led into the micro inflation pipe 332 through the power supply connecting wire 333, the micro inflation pipe 332 converts the electric energy into the wind energy, the wind energy enters the starting mechanism 324 through the hollow conduit at the bottom, because the upper end surface and the lower end surface of the push plate 32413 are in a semi-closed state, when the air pressure value at the bottom end of the push plate 32413 is higher than the air pressure value at the top end of the micro inflation pipe 332, the push plate 32413 moves upwards in a straight and straight manner under the guiding action, after the current is transmitted and supplied, when the current is input into the micro air pump 353 through the micro air pump 332, the pump 354 converts the electric energy into mechanical energy by applying work, generates suction force on the lower water flow through the water receiving pipe 4, reversely extracts the water flow, and transmits the water flow to the rotary spraying mechanism 31 at four ends through the built-in guide pipe 356, the water flow with high pressure impact force after being extracted is divided at the dividing cone 316 after entering the rotary spraying mechanism 31, and the divided water flow is sprayed out from the outside in a large range through the mutual matching of the high pressure spray nozzle 317 and the dispersing nozzle 318, so that the dust flying in the air is humidified.

The device for converting the chemical energy of the storage battery 344 into the electric energy is called a chemical battery, generally called a battery for short, and can regenerate internal active substances in a charging mode after being discharged, namely, store the electric energy into the chemical energy; when the discharge is needed, the chemical energy is converted into electric energy again, the output terminal 343 is a component for connecting the storage battery with an external conductor, in the electrical engineering, the terminal is a terminal, namely a wiring terminal, a type-dividing single hole, a double hole, a socket, a hook and the like, and the material is divided into copper silver plating, copper zinc plating, copper, aluminum, iron and the like.

The invention solves the problem that the existing environmental protection device for building construction mostly adopts water spraying on a construction site for dust fall, and a water spraying vehicle needs manual real-time operation and has larger water spraying amount and small spraying range, so that the dust fall effect is poor.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. Environmental protection device for construction, its characterized in that: the structure of the dust-settling device comprises a machine arm (1), a machine body protective shell (2), a continuous range dust-settling device (3), a water receiving pipe (4), support legs (5), a connecting block (6) and spiral wings (7), the top end of the continuous range dust falling device (3) is arranged in the machine body protective shell (2) in an embedded mode, the four machine arms (1) are arranged at the four corners of the machine body protective shell (2) in a fixed way by adopting an electric welding way at one end far away from the connecting block (6), the top ends of the support legs (5) are fixedly connected to the lower surface of the end, close to the machine body protection shell (2), of the machine arm (1) in an electric welding mode, the top end of the water receiving pipe (4) is arranged under the machine body protective shell (2) in an embedded mode, one end of the spiral wing (7) close to the axis of the connecting block (6) is fixedly connected with the spiral wing (7) in an embedded mode;

continuous range dust device (3) start group (32), automatic pressurization mechanism (33), energy conversion mechanism (34), extraction conveying mechanism (35) including rotatory sprinkling mechanism (31), atmospheric pressure, the inside top fixed mounting of organism protective housing (2) has energy conversion mechanism (34), be equipped with atmospheric pressure under atmospheric pressure start group (32) and be connected rather than the electricity through the wire, be equipped with extraction conveying mechanism (35) under atmospheric pressure start group (32) and be in the same place rather than fixed connection, rotatory sprinkling mechanism (31) respectively are equipped with two with automatic pressurization mechanism (33) and locate atmospheric pressure start group (32) both ends about respectively.

2. The environmental protection device for construction according to claim 1, wherein: the rotary spraying mechanism (31) comprises a separation rotary drum (311), a spiral blade fixing block (312), a ball (313), a limiting rotary ring (314), a water guide drum (315), a flow dividing conical head (316), a high-pressure spray head (317), a dispersing nozzle (318) and a rotary disc (319), the bottom end of the limiting rotary ring (314) is fixedly connected with the right end of the limiting rotary ring (314), the four balls (313) are respectively fixedly arranged at the four corners of the bottom end of the limiting rotary ring (314) in an electric welding way, the bottom end of the water guide cylinder (315) is fixedly connected to the top end of the rotary table (319) in an electric welding mode, the bottom end of the rotary disc (319) is arranged at the top end in an embedding way, the top end of the shunting cone head (316) is fixedly connected with the top end of the inner part in an electric welding way to form an integrated structure, the outer surface of the separation rotating cylinder (311) is attached to the inner ring surface of the spiral blade fixing block (312).

3. The environmental protection device for construction according to claim 1, wherein: the pneumatic starting group (32) comprises a first conducting rod (321), a second conducting rod (322), a locking ring (323) and a starting mechanism (324), one end, close to the second conducting rod (322), of the first conducting rod (321) is installed at one end, far away from the second conducting rod (322), of the starting mechanism (324) in an embedding mode, one end, close to the first conducting rod (321), of the second conducting rod (322) is installed at one end, far away from the first conducting rod (321), of the starting mechanism (324) in an embedding mode, and the outer surface of the starting mechanism (324) is installed inside the locking ring (323) in an embedding mode.

4. The environmental protection device for construction according to claim 1, wherein: automatic pressurization mechanism (33) are including strengthening frame (331), miniature gas tube (332), power connecting wire (333), pressure slip trigger a section of thick bamboo (334), strengthening frame (331) top adopts the mode fixed connection in the inside top of organism protective housing (2) of electric welding, power connecting wire (333) top and energy conversion mechanism (34) one end fixed connection are in the same place, pressure slip trigger a section of thick bamboo (334) and install on miniature gas tube (332) positive terminal surface right side through the mode of embedding, miniature gas tube (332) are kept away from pressure slip and are triggered a section of thick bamboo (334) right-hand member and install through the mode of embedding and be close to power connecting wire (333) one end in strengthening frame (331).

5. The environmental protection device for construction according to claim 1 or 4, wherein: the energy conversion mechanism (34) comprises a light energy collecting plate (341), an electric energy conversion plate (342), an output terminal (343), a storage battery (344) and a battery fixing frame (345), wherein the light energy collecting plate (341) is installed at the top end of a machine body protecting shell (2) in an embedded mode, the top end inside the machine body protecting shell (2) is fixedly provided with the machine body protecting shell (2), the back of the output terminal (343) is fixedly connected to the positive end face of the electric energy conversion plate (342) in an electric welding mode, the storage battery (344) is integrally installed inside the battery fixing frame (345) in an embedded mode, and one end of the storage battery (344) is fixedly connected with the top end of a power supply connecting wire (333).

6. The environmental protection device for construction according to claim 1 or 2, characterized in that: the pump-out conveying mechanism (35) comprises a pump machine limiting frame (351), a connecting sleeve (352), a receiving terminal (353), a pump machine (354), a hard water conveying pipe (355) and a built-in guide pipe (356), one end of the hard water conveying pipe (355) far away from the pump machine (354) is installed inside the top end in an embedded mode, the left end and the right end of the pump machine (354) are installed inside the pump machine limiting frame (351) in an embedded mode, the back of the receiving terminal (353) is fixedly connected to the positive end face of the pump machine (354) in an electric welding mode, the head end of the built-in guide pipe (356) is installed at the bottom end of the rotary spraying mechanism (31) in an embedded mode, and the tail end of the built-in guide pipe (356) is installed at the top end of the pump.

7. The environmental protection device for construction according to claim 3, wherein: the starting mechanism (324) comprises a trigger mechanism (3241) and a pushing mechanism (3242), the trigger mechanism (3241) is arranged right above the pushing mechanism (3242), the trigger mechanism (3241) comprises a sealing ring (32411), an inner tube casing (32412), a push plate (32413), a sliding ball (32414), a guide rail (32415) and a corrugated spring tube (32416), the outer annular surface of the sealing ring (32411) is fixedly connected with the inside of the bottom end of the pushing mechanism (3242) in an embedding mode, one end, far away from the push plate (32413), of the corrugated spring tube (32416) is installed at the top end of the sealing ring (32411) in an embedding mode, one end, far away from the corrugated spring tube (32416), of the guide rail (32415) is fixedly connected to the left side and the right side inside the inner tube casing (32412) in an electric welding mode, one end, far away from the sliding ball (32414), of the sliding ball (32414) is installed at the, the inner pipe casing (32412) is fixedly connected with one end of the inner pipe casing (32412).

8. The environmental protection device for construction according to claim 7, wherein: the pushing mechanism (3242) comprises an outer tube sleeve (32421), an elastic conductive output rod (32422), a pressure maintaining port (32423), an outer leakage port (32424) and an elastic conductive receiving rod (32425), the top end of the outer tube sleeve (32421) and the outer tube sleeve (32421) are of an integrated structure, the pressure maintaining port (32423) and the right upper end of the inner tube sleeve (32412) are of an integrated structure, the elastic conductive output rod (32422) is arranged at the lower end of the elastic conductive receiving rod (32425) and penetrates through the left side face of the inner tube sleeve (32412) at one end far away from the elastic conductive receiving rod (32425), and one end, far away from the elastic conductive output rod (32422), of the elastic conductive receiving rod (32425) is fixed at the right side of the outer tube sleeve (32421) in an upper position in an embedding mode.

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