CN112982988A

CN112982988A - Green and environment-friendly building construction method

Info

Publication number: CN112982988A
Application number: CN202110154801.3A
Authority: CN
Inventors: 房绪彪; 黄帅; 吕书峰; 郝翠芳
Original assignee: Shandong Laiwu Construction Group Co ltd
Current assignee: Shandong Laiwu Construction Group Co ltd
Priority date: 2021-02-04
Filing date: 2021-02-04
Publication date: 2021-06-18
Anticipated expiration: 2041-02-04
Also published as: CN112982988B

Abstract

The application relates to a green environment-friendly building construction method, which belongs to the field of building construction and comprises the following steps: s1, spraying, wetting and dust-settling before building construction; s2, spraying and dedusting during construction; s3, sucking constructed waste dust; environmental protection dust fall equipment is all used to above-mentioned step, environmental protection dust fall equipment is including atomizing automobile body, setting be arranged in atomizing automobile body top from the top down towards the atomizer of water smoke in the air and with atomizing body coupling and set up the suction device in order to be used for sucking the waste dust in atomizer below, suction device includes the pivot that the level set up, be used for sucking the dust exhaust take out the dust hood, with take out the dust hood and be connected with the suction subassembly that produces negative pressure air current in taking out dust hood department, its axial rotation setting is followed in the pivot, and its and atomizing body coupling, take out dust hood and pivot fixed connection, and the pivot is connected with the angle control assembly who controls its turned angle. The setting of environmental protection dust fall equipment can accelerate the subsidence of waste dust, reduces the diffusion of waste dust simultaneously.

Description

Green and environment-friendly building construction method

Technical Field

The application relates to the field of building construction, in particular to a green and environment-friendly building construction method.

Background

The building construction refers to production activities in the engineering construction implementation stage, and the phenomenon of flying of waste dust often occurs on the site of the building construction, so that the environment near the construction site is seriously polluted; a common dust settling method generally utilizes a spray vehicle to spray water mist to waste dust when the waste dust flies, so as to inhibit the waste dust from diffusing.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in a general construction process, waste dust is generated during construction, and then a fog gun vehicle is used for spraying water fog to the waste dust so as to accelerate the diffusion of the waste dust. However, in the actual operation process, the dust falling method is low in efficiency, and waste dust is easy to diffuse.

Disclosure of Invention

In order to accelerate the sedimentation of waste dust and reduce the diffusion of the waste dust, the application provides a green building construction method.

The application provides a green building construction method, which relates to the following technical scheme:

a construction method of a green environment-friendly building comprises the following steps: s1, spraying, wetting and dust-settling before building construction; s2, spraying and dedusting during construction; s3, sucking constructed waste dust; environmental protection dust fall equipment is all used to above-mentioned step, environmental protection dust fall equipment is including atomizing automobile body, setting be arranged in atomizing automobile body top from the top down towards the atomizer of water smoke in the air and with atomizing body coupling and set up the suction device in order to be used for sucking the waste dust in atomizer below, suction device includes the pivot that the level set up, be used for sucking the dust exhaust take out the dust hood, with take out the dust hood and be connected with the suction subassembly that produces negative pressure air current in taking out dust hood department, its axial rotation setting is followed in the pivot, and its and atomizing body coupling, take out dust hood and pivot fixed connection, and the pivot is connected with the angle control assembly who controls its turned angle.

Through adopting above-mentioned technical scheme, before the construction, the staff drive atomizing automobile body to construction department to adjustment atomizer's operating height, later the staff can be earlier in the construction site spraying establish water smoke, so that near ground keeps certain moist, and then the production of reducible waste dust on the one hand, on the other hand can produce the waste dust and be difficult to the secondary diffusion after subsiding during the construction. When more waste dust is generated during construction, the spraying device works to spray water mist, and the water mist can accelerate the sedimentation of the waste dust. Meanwhile, as the water mist is sprayed from top to bottom, the sprayed water mist has a downward initial speed, and the sedimentation of the waste dust can be further accelerated. In the process of the sedimentation of the waste dust, a worker can control the dust extraction cover to rotate upwards by using the angle control assembly and start the suction assembly, so that negative pressure airflow is generated at the dust extraction cover, and the waste dust in the air is sucked. After the construction is stopped or finished, the staff can operate the atomizing vehicle, so that the opening of the dust extraction cover is arranged towards the ground, waste dust on the ground is sucked, and secondary diffusion of the waste dust is further reduced.

Optionally, the suction assembly includes a suction pump, a suction pipe, and a dust box, the dust box is fixedly connected to the atomizing body, and the suction pump is respectively connected to the dust hood and the dust box through the suction pipe.

Through adopting above-mentioned technical scheme, when the waste dust that produces when needs are to the construction carried out the suction, the suction pump starts, and the suction pump produces the negative pressure air current in order to drive external waste dust along dust extraction cover and suction tube inflow dust collection box. The dust collection box can collect and store the waste dust.

Optionally, atomizer is including the adjustment mechanism that is used for spraying the spraying mechanism of fog and is used for adjusting spraying mechanism operating height, spraying mechanism is including the atomizing piece, the confession liquid force pump and the water tank that are used for atomizing water liquid in order to spray water smoke to the outside, water tank and liquid feed pump all set up on the atomizing automobile body, the confession liquid force pump leads to pipe and is connected with atomizing piece and water tank respectively, atomizing piece is connected with adjustment mechanism.

Through adopting above-mentioned technical scheme, atomizer during operation, the staff can adjust the working height of atomizing piece through adjustment mechanism earlier to adjust the scope that atomizing piece sprays water smoke. During operation, the liquid supply pressure pump transports water liquid into the atomizing part through the water pipe so as to spray water mist into the air through the atomizing part.

Optionally, the adjusting mechanism includes a pair of vertical and symmetrical telescopic rods and a height control assembly for controlling the lifting height of the telescopic rods, the telescopic rods include a connecting rod portion and a telescopic rod portion, one end of the connecting rod portion is fixedly connected with the atomizing vehicle body, the telescopic rod portion is inserted in the connecting rod portion in a sliding manner, the telescopic rod portion is connected with the height control assembly, and the atomizing member is connected with the telescopic rods.

Through adopting above-mentioned technical scheme, the staff adjusts the working height of liter flexible rod through the height control subassembly, and then makes the working height of atomizing piece can be adjusted.

Optionally, a lifting groove is formed in the upper end of the connecting rod portion along the length direction of the connecting rod portion, the lifting rod portion is inserted into the lifting groove in a sliding mode, a side wall groove is formed in the side wall of the connecting rod portion along the length direction of the connecting rod portion, the height control assembly comprises a driving motor, a steel wire rope and a rotating roller, the rotating roller is arranged at the upper end of the side wall groove and is connected with the side wall of the side wall groove in a rotating mode, the driving motor is fixedly connected with the atomization vehicle body, one end of the steel wire rope is fixedly connected with the lifting rod portion, and the steel wire rope bypasses the rotating roller and is connected with an output shaft of the driving.

Through adopting above-mentioned technical scheme, staff's accessible driving motor adjusts the operating height of liter flexible rod. During adjustment, the output shaft of the driving motor rotates to further wind the steel wire rope, so that the steel wire rope drives the lifting and contracting rod to move upwards to realize the extension of the lifting and contracting rod. When the operation of the spraying device is finished. The output shaft of the driving motor rotates to release the steel wire rope, so that the telescopic rod part moves downwards under the action of self weight, the height of the telescopic rod is reduced, and the whole structure of the equipment is more compact.

Optionally, the driving motor is a double-end motor, the driving motor is arranged between the pair of telescopic rods, the telescopic rods are fixedly connected with stabilizer bars, the stabilizer bars are horizontally arranged, and the end portions of the stabilizer bars penetrate through the side wall grooves and are fixedly connected with the telescopic rods.

Through adopting above-mentioned technical scheme, driving motor is double-end motor, the reducible motor set up the figure, and when driving motor rotated, driving motor can the rolling wire rope of both sides simultaneously to reach the purpose of control telescopic rod operating height. The arrangement of the stabilizer bar can improve the structural strength of the telescopic rod, so that the telescopic rod is more stable in working.

Optionally, the angle control assembly includes the connecting portion of being connected with the pivot, connecting portion include bracing piece, rack and the gear that a pair of level set up, bracing piece parallel arrangement each other, and the one end and the connecting rod portion fixed connection of bracing piece, the pivot sets up between a pair of bracing piece, the tip and the bracing piece of pivot rotate the setting, the holding tank has been seted up along its length direction to the bracing piece, and in the one end of pivot extended the holding tank, gear and the coaxial key fixed connection of pivot, the rack is along the length direction of holding tank and the lateral wall sliding connection of holding tank, and rack and gear engagement set up, the angle control assembly still includes the drive division that drives the rack along holding tank length direction operation.

Through adopting above-mentioned technical scheme, the setting of bracing piece can play the supporting role to countershaft and take out dirt cover. Because rack and gear engagement, the staff is through the sliding position of control rack in the holding tank, and then the turned angle of steerable gear to change the orientation of taking out dust hood cover mouth.

Optionally, the driving portion comprises a resisting spring and a connecting rope, the resisting spring and the connecting rope are arranged in the accommodating groove along the length direction of the accommodating groove, one end of the resisting spring is fixedly connected with the side wall of the accommodating groove, the other end of the resisting spring is fixedly connected with the rack, one end of the connecting rope is connected with the rack, the other end of the connecting rope extends into the lifting groove and is fixedly connected with the inner wall of the lifting groove far away from the rack, and when the lifting rod portion moves downwards and is connected with the connecting rope, the dust hood rotates towards the ground.

Through adopting above-mentioned technical scheme, atomizer is before spraying water smoke, and driving motor rotates so that the pole that contracts of rising moves up along vertical direction, along with the pole that contracts that rises shifts up, supports tight spring and promotes the rack towards the one end operation that deviates from the pole that contracts that rises to make the rack drive gear revolve, and then make the opening of suction hood set up, but with the waste dust mixture of suction atomizer below of suction hood when atomizer sprays water smoke, in order to reduce the waste dust diffusion. After the atomizer spraying, driving motor rotates to make the liter flexible neck shrink, rise the flexible neck portion and can touch the connection rope at the in-process that moves down, and the connection rope is connected in the pulling of below, and then make the connection rope pull the rack towards the operation of one side that is close to the liter flexible neck, so that the gear drives the suction hood and moves towards the below, and then make the suction hood adsorbable to subaerial dust waste, with the secondary diffusion that reduces the dust waste.

In summary, the present application includes at least one of the following advantageous technical effects:

1. setting of environmental protection dust fall equipment: before the construction, the staff drives the atomizing automobile body to the construction department to the operating height of adjusting atomizer, later the staff can be earlier at the construction site spraying and establish water smoke, so that ground near keeps certain moist, and then the production of reducible waste dust on the one hand, on the other hand can make the waste dust that produces during the construction be difficult to the redistributing after subsiding. When more waste dust is generated during construction, the spraying device works to spray water mist, and the water mist can accelerate the sedimentation of the waste dust. Meanwhile, as the water mist is sprayed from top to bottom, the sprayed water mist has a downward initial speed, and the sedimentation of the waste dust can be further accelerated. In the process of settling the waste dust, a worker can control the dust extraction cover to rotate upwards by using the angle control assembly and start the suction assembly so as to generate negative pressure airflow at the dust extraction cover, and further suck the waste dust in the air so as to reduce the phenomenon that the waste dust is diffused to the ground and then is dried and then diffused again;

2. setting of the angle control assembly: before atomizer sprays water smoke, driving motor rotates so that the pole that contracts rises along vertical direction operation up, along with the pole that contracts that rises shifts up, supports tight spring and promotes the rack towards the one end operation that deviates from the pole that contracts that rises to make the rack drive gear revolve, and then make the opening of suction hood set up, can suck the waste dust mixture of atomizer below with the suction hood when atomizer sprays water smoke, in order to reduce the waste dust diffusion. After the atomizer spraying, driving motor rotates to make the liter flexible neck shrink, rise the flexible neck portion and can touch the connection rope at the in-process that moves down, and the connection rope is connected in the pulling of below, and then make the connection rope pull the rack towards the operation of one side that is close to the liter flexible neck, so that the gear drives the suction hood and moves towards the below, and then make the suction hood adsorbable to subaerial dust waste, with the secondary diffusion that reduces the dust waste.

Drawings

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

FIG. 2 is a schematic structural view of an adjustment mechanism in an embodiment of the present application;

FIG. 3 is a schematic view of a half-section of a support rod in an embodiment of the present application;

fig. 4 is an enlarged schematic view of a portion a in fig. 3.

Description of reference numerals: 100. atomizing the vehicle body; 200. a spraying mechanism; 210. an atomizing spray head; 211. mounting a plate; 212. an atomizing nozzle; 220. a liquid supply pressure pump; 230. a water tank; 300. an adjustment mechanism; 310. lifting and shrinking the rod; 311. a connecting rod part; 3111. a lifting and shrinking groove; 3112. a sidewall groove; 312. a telescopic rod part; 320. a height control assembly; 321. a drive motor; 322. a wire rope; 323. a rotating roller; 324. a wind-up roll; 400. a suction device; 410. a rotating shaft; 420. a dust extraction hood; 430. a suction assembly; 431. a suction pump; 432. a suction tube; 433. a dust collection box; 434. a branch pipe; 510. a connecting portion; 511. a gear; 512. a support bar; 5121. accommodating grooves; 513. a rack; 520. a drive section; 521. the spring is tightly propped; 522. and connecting ropes.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a construction method of a green environment-friendly building. Referring to fig. 1, the method includes the following steps: s1, spraying, wetting and dust-settling before building construction; s2, spraying and dedusting during construction; s3, sucking constructed waste dust; the environment-friendly dust falling device comprises an atomizing vehicle body 100, a spraying device and a suction device 400. The spraying device is arranged above the atomization vehicle body 100 and is mainly used for spraying water mist from top to bottom during dust raising so as to accelerate the sedimentation of waste dust and reduce the diffusion of the waste dust. A suction device 400 is connected to the atomizing vehicle body 100 and disposed below the spraying device, and the suction device 400 is used to suck waste dust in the air and falling to the ground. The suction device 400 can be used to reduce the diffusion of the airborne waste dust on the one hand and to suck the waste dust falling to the ground to reduce the secondary diffusion of the waste dust on the other hand.

Referring to fig. 1 and 2, the spraying apparatus includes a spraying mechanism 200 and an adjusting mechanism 300. The spraying mechanism 200 is used for spraying water mist to the air, and the adjusting mechanism 300 is used for adjusting the working height of the spraying mechanism 200 so as to control the spraying range of the water mist. The spraying mechanism 200 includes an atomizing member for atomizing the water to spray the mist to the outside, a liquid supply pressure pump 220 for supplying the water to the atomizing member, and a water tank 230 for storing the water. The atomizing piece is atomizer 210, and atomizer 210 includes mounting panel 211 and a plurality of atomizer 212, and atomizer 212 all is connected with the face of mounting panel 211 one side, and mounting panel 211 slope sets up down, and mounting panel 211 is connected with adjustment mechanism 300, and the water smoke that some atomizer 210 jetted sprays towards vertical below, and the atomizer 210 slope of another part sprays below. The water tank 230 and the liquid supply pump are both arranged on the atomization vehicle body 100, and the liquid supply pressure pump 220 is respectively connected with the atomization nozzle 210 and the water tank 230 through water pipes.

The adjusting mechanism 300 includes a pair of telescopic rods 310, and a height control assembly 320 for controlling the height of the telescopic rods 310. The pair of telescopic bars 310 are vertically and symmetrically disposed, and the telescopic bars 310 include a connection bar portion 311 and a telescopic bar portion 312. The lower end of the connecting rod portion 311 is fixedly welded to the atomization vehicle body 100, a lifting and contracting groove 3111 is formed in the upper end of the connecting rod portion 311 towards the lower side along the length direction of the connecting rod portion 311, the lifting and contracting rod portion 312 is inserted into the lifting and contracting groove 3111 in a sliding mode, and the side wall of the lifting and contracting rod portion 312 is attached to the side wall of the lifting and contracting groove 3111 in a sliding mode. Lateral wall groove 3112 has all been seted up along the length direction of connecting pole portion 311 to the mutual lateral wall that is close to of connecting pole portion 311, and lateral wall groove 3112 communicates with groove 3111 that contracts. Height control assembly 320 passes lateral wall groove 3112 and liter pole portion 312 fixed connection, and the fixed welding in upper end of liter pole portion 312 has the stabilizer bar, and the stabilizer bar level sets up, and mounting panel 211 is through supporting steel water pipe and stabilizer bar fixed welding, and the water pipe communicates with supporting steel water pipe, and the water pipe is the hose.

The height control assembly 320 includes a driving motor 321, a pair of wire ropes 322, and a pair of rotating rollers 323. The driving motor 321 is a double-headed motor, and the driving motor 321 is disposed between the pair of telescopic bars 310. The driving motor 321 is fixedly connected with the atomizing vehicle body 100, and an output shaft of the driving motor 321 is coaxially and fixedly connected with the winding roller 324. The rotating roller 323 is arranged at the upper end of the side wall groove 3112 and is rotatably connected with the side wall of the side wall groove 3112, one end of the steel wire rope 322 bypasses the rotating roller 323 and is fixedly connected with the side wall of the telescopic rod part 312 close to the lower end, and the other end of the steel wire rope 322 is wound on the winding roller 324. When the driving motor 321 rotates forward, the output shaft of the driving motor 321 drives the winding roller 324 to rotate, so that the steel wire rope 322 is wound on the winding roller 324, and meanwhile, the steel wire rope 322 pulls the telescopic rod part 312 upwards, so that the telescopic rod part 312 drives the atomizing nozzle 210 to move upwards, and the range of the atomizing nozzle 210 for spraying water mist is further increased. After the work of the atomizing nozzle 210 is finished, the driving motor 321 reversely rotates, and the winding roller 324 releases the steel wire rope 322, so that the telescopic rod part 312 moves downwards, the telescopic rod 310 is shortened, and the environment-friendly dust settling equipment is more compact in structure.

Referring to fig. 1 and 3, the suction apparatus 400 includes a rotation shaft 410, a dust extraction cover 420, and a suction assembly 430. The rotating shaft 410 is horizontally arranged below the atomizer 210, the rotating shaft 410 is fixedly connected with the dust extraction cover 420, an angle control assembly for supporting and controlling the rotating shaft 410 to rotate along the axial direction is connected to the end of the rotating shaft 410, and the suction assembly 430 is connected with the dust extraction cover 420 to suck and store the waste dust.

The suction assembly 430 includes a suction pump 431, a suction pipe 432, and a dust box 433. The dust box 433 and the suction pump 431 are both fixedly connected with the atomizing vehicle body 100. The suction pump 431 is connected to the dust suction hood 420 and the dust box 433 through a suction pipe 432, respectively. Three branch pipes 434 are arranged at one end of the suction pipe 432 connected with the dust extraction hood 420, the branch pipes 434 are hoses, and the branch pipes 434 are fixedly connected with the dust extraction hood 420 at equal intervals. In operation, the suction pump 431 generates a negative pressure air flow to allow external waste dust to travel through the suction hood, branch pipe 434 and suction pipe 432 into the dust box 433 to allow for the suctioned storage of the waste dust.

Referring to fig. 3 and 4, the angle control assembly includes a connection part 510 for supporting the rotation shaft 410 and a driving part 520 for driving the rotation shaft 410 to rotate. The connecting portion 510 includes a pair of gears 511, a pair of support bars 512, and a pair of racks 513. The support rods 512 are parallel to each other, one end of each support rod 512 is fixedly connected to the connecting rod portion 311, and the rotating shaft 410 is disposed between the pair of support rods 512. The holding tank 5121 of placing a rack 513 and a gear 511 is all seted up along its length direction to bracing piece 512, the tip and the rotation of bracing piece 512 of pivot 410 set up, and in the holding tank 5121 was extended to the one end of pivot 410, gear 511 and the coaxial key fixed connection of pivot 410 tip, rack 513 is along the length direction of holding tank 5121 and the lateral wall sliding connection of holding tank 5121, and rack 513 sets up with the gear 511 meshing, the angle control subassembly still includes drive rack 513 along the drive division 520 of holding tank 5121 length direction operation.

The drive part 520 includes to support tight spring 521 and connect rope 522, support tight spring 521 and connect rope 522 and all set up in holding tank 5121 along the length direction of holding tank 5121, the one end that supports tight spring 521 and holding tank 5121's lateral wall fixed connection, the other end and rack 513 fixed connection, the one end and the rack 513 of connecting rope 522 are connected, the other end extends to in the groove 3111 that contracts and keeps away from the inner wall fixed connection of rack 513 with the groove 3111 that contracts that rises, when the pole portion 312 that contracts moves down and is connected with connecting rope 522, the dust extraction cover 420 rotates towards ground.

The implementation principle of the embodiment of the application is as follows: s1, spraying, wetting and dust-settling before building construction; the staff drives atomizing automobile body 100 to near the construction department, then driving motor 321 positive rotation, driving motor 321 drives wind-up roll 324 and rotates, wind-up roll 324 winds up wire rope 322, wire rope 322 moves telescopic rod portion 312 under the effect of rotating roll 323 to make telescopic rod 310 drive atomizer 210 to shift up, wait telescopic rod portion 312 to move up to when breaking away from with connecting rope 522, support tight spring 521 and promote rack 513 and drive gear 511 and rotate, so that dust extraction cover 420 opening sets up. After the atomizer 210 is adjusted, the worker starts the liquid supply pressure pump 220 to make the liquid supply pressure pump 220 spray water mist towards the construction point and the position near the construction point through the water pipe and the atomizer 210, so that the waste dust generated during construction is easy to adhere to the ground, and further the diffusion of the waste dust is reduced.

S2, spraying and dedusting during construction; when more waste dust is generated in the construction, the construction may be stopped, and then the atomizing nozzles 212 spray water mist from top to bottom to accelerate the settling of the waste dust, and at the same time, the suction pump 431 is started to suck the waste dust into the dust box 433.

S3, sucking constructed waste dust; after the construction is finished, the driving motor 321 drives the winding roller 324 to rotate so as to release the steel wire rope 322, the telescopic rod part 312 moves downwards under the action of self weight to be in contact with the connecting rope 522, along with the downward movement of the telescopic rod part 312, the connecting rope 522 pulls the rack 513, so that the rack 513 drives the gear 511 and the rotating shaft 410 to rotate downwards until the opening of the dust extraction cover 420 faces downwards, and then the suction pump 431 works so that the dust extraction cover 420 can suck the waste dust adhered to the ground, and further secondary diffusion of the waste dust is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A construction method of a green environment-friendly building is characterized by comprising the following steps: the method comprises the following steps:

s1, spraying, wetting and dust-settling before building construction;

s2, spraying and dedusting during construction;

s3, sucking constructed waste dust;

environmental protection dust fall equipment is all used to above-mentioned step, environmental protection dust fall equipment is including atomizing automobile body (100), set up and be used for from the top down spray device of water smoke in towards the air in atomizing automobile body (100) top and be connected and set up in suction device (400) of spray device below in order to be used for sucking waste dust, suction device (400) including pivot (410) that the level set up, be used for sucking waste dust take out dirt cover (420), with dust extraction cover (420) be connected in order to produce suction assembly (430) of negative pressure air current in dust extraction cover (420) department, pivot (410) rotate the setting along its axial, and it is connected with atomizing automobile body (100), dust extraction cover (420) and pivot (410) fixed connection, and pivot (410) are connected with the angle control assembly of its turned angle of control.

2. The construction method of green and environment-friendly building according to claim 1, characterized in that: the suction assembly (430) comprises a suction pump (431), a suction pipe (432) and a dust collection box (433), the dust collection box (433) is fixedly connected with the atomization vehicle body (100), and the suction pump (431) is respectively connected with the dust collection cover (420) and the dust collection box (433) through the suction pipe (432).

3. The construction method of green and environment-friendly building according to claim 2, characterized in that: the atomizer is including spraying mechanism (200) that is used for spraying the fog and being used for adjusting spraying mechanism (200) operating height's adjustment mechanism (300), spraying mechanism (200) is including being used for atomizing water liquid in order to outside spray the atomizing piece of water smoke, supply liquid force pump (220) and water tank (230), water tank (230) and liquid supply pump all set up on atomizing automobile body (100), supply liquid force pump (220) lead to pipe with be connected with atomizing piece and water tank (230) respectively, atomizing piece is connected with adjustment mechanism (300).

4. The construction method of green environmental protection building according to claim 3, characterized in that: the adjusting mechanism (300) comprises a pair of vertical and symmetrically arranged telescopic rods (310) and a height control assembly (320) for controlling the lifting height of the telescopic rods (310), each telescopic rod (310) comprises a connecting rod portion (311) and a telescopic rod portion (312), one end of each connecting rod portion (311) is fixedly connected with the atomizing vehicle body (100), each telescopic rod portion (312) is inserted into the corresponding connecting rod portion (311) in a sliding mode, each telescopic rod portion (312) is connected with the height control assembly (320), and the atomizing part is connected with the telescopic rods (310).

5. The construction method of green environmental protection building according to claim 4, characterized in that: the upper end of connecting rod portion (311) has seted up along its length direction and has risen groove (3111) that contracts, it pegs graft in rising groove (3111) to rise contracting rod portion (312) slip, lateral wall groove (3112) have been seted up along the length direction of connecting rod portion (311) to the lateral wall of connecting rod portion (311), height control subassembly (320) include driving motor (321), wire rope (322) and live-rollers (323), live-rollers (323) set up in the upper end position department of lateral wall groove (3112) and rotate with the lateral wall of lateral wall groove (3112) and be connected, driving motor (321) and atomizing automobile body (100) fixed connection, wire rope (322) one end and pole portion (312) fixed connection that rises contract, and wire rope (322) walk around live-rollers (323) and driving motor (321) output shaft connection.

6. The construction method of green environmental protection building according to claim 5, characterized in that: driving motor (321) are double-end motor, driving motor (321) set up between a pair of scaling-up pole (310), just scaling-up pole portion (312) fixedly connected with stabilizer bar, the stabilizer bar level sets up, and the tip of stabilizer bar passes lateral wall groove (3112) and scaling-up pole portion (312) fixed connection.

7. The construction method of green and environment-friendly building according to claim 6, characterized in that: the angle control assembly comprises a connecting part (510) connected with a rotating shaft (410), the connecting part (510) comprises a pair of supporting rods (512) which are horizontally arranged, a rack (513) and a gear (511), the supporting rods (512) are arranged in parallel, one end of each supporting rod (512) is fixedly connected with a connecting rod part (311), the rotating shaft (410) is arranged between the pair of supporting rods (512), the end part of the rotating shaft (410) is rotatably arranged with the corresponding supporting rod (512), the supporting rods (512) are provided with accommodating grooves (5121) along the length direction of the supporting rods, one end of each rotating shaft (410) extends into the corresponding accommodating groove (5121), the gear (511) is fixedly connected with the rotating shaft (410) through coaxial keys, the rack (513) is slidably connected with the side walls of the accommodating grooves (5121) along the length direction of the accommodating grooves (5121), and the rack (513) is meshed with the gear (511), the angle control assembly further comprises a driving part (520) driving the rack (513) to run along the length direction of the accommodating groove (5121).

8. The construction method of green environmental protection building according to claim 7, characterized in that: drive division (520) are including propping tight spring (521) and connecting rope (522), it all sets up in holding tank (5121) with the length direction who connects rope (522) to prop tight spring (521), the one end of propping tight spring (521) and the lateral wall fixed connection of holding tank (5121), the other end and rack (513) fixed connection, the one end and the rack (513) of connecting rope (522) are connected, and the other end extends to in the groove of rising and contracting (3111) and keeps away from the inner wall fixed connection of rack (513) with the groove of rising and contracting (3111), when pole portion of rising and contracting (312) move down and are connected rope (522), dust extraction cover (420) rotate towards ground.